LOG file for integration channel /P0_uux_emep/all_G1_1, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       37268
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           1
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,   3157
  with seed                   49
 Ranmar initialization seeds         124       12581
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.423953D+04 0.423953D+04  1.00
 muF1, muF1_reference: 0.423953D+04 0.423953D+04  1.00
 muF2, muF2_reference: 0.423953D+04 0.423953D+04  1.00
 QES,  QES_reference:  0.423953D+04 0.423953D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4973458561050241E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4112725980881186E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.3996124964324441E-005           OLP:   -1.3996124964324426E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.4400650273951494E-006           OLP:   -5.4400650273951325E-006
  FINITE:
           OLP:   -9.3042815598543319E-004
           BORN:    4.0336257123308227E-003
  MOMENTA (Exyzm): 
           1   2397.4360121194459        0.0000000000000000        0.0000000000000000        2397.4360121194459        0.0000000000000000     
           2   2397.4360121194459       -0.0000000000000000       -0.0000000000000000       -2397.4360121194459        0.0000000000000000     
           3   2397.4360121194459       -1987.6591048991224       -361.27655669485449        1290.8872779997182        0.0000000000000000     
           4   2397.4360121194459        1987.6591048991224        361.27655669485449       -1290.8872779997182        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.3996124964324441E-005           OLP:   -1.3996124964324426E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.4400650273951494E-006           OLP:   -5.4400650273951325E-006
 Error #15 in genps_fks.f  -1.0728836059570312E-006           3
ABS integral  = 0.9026E-06  +/-  0.1980E-08  (   0.219 %)
Integral      = 0.5137E-06  +/-  0.2215E-08  (   0.431 %)
Virtual       = 0.1213E-09  +/-  0.1063E-08  ( 876.376 %)
Virtual ratio = -.1937E+00  +/-  0.4125E-03  (   0.213 %)
ABS virtual   = 0.4838E-06  +/-  0.8436E-09  (   0.174 %)
Born          = 0.1901E-05  +/-  0.2722E-08  (   0.143 %)
V  2          = 0.1213E-09  +/-  0.1063E-08  ( 876.376 %)
B  2          = 0.1901E-05  +/-  0.2722E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9026E-06  +/-  0.1980E-08  (   0.219 %)
accumulated results Integral      = 0.5137E-06  +/-  0.2215E-08  (   0.431 %)
accumulated results Virtual       = 0.1213E-09  +/-  0.1063E-08  ( 876.376 %)
accumulated results Virtual ratio = -.1937E+00  +/-  0.4125E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4838E-06  +/-  0.8436E-09  (   0.174 %)
accumulated results Born          = 0.1901E-05  +/-  0.2722E-08  (   0.143 %)
accumulated results V  2          = 0.1213E-09  +/-  0.1063E-08  ( 876.376 %)
accumulated results B  2          = 0.1901E-05  +/-  0.2722E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   204382    24013  0.3280E-06  0.1853E-06  0.9954E+00
channel    2 :     1 T   207315    24468  0.3357E-06  0.1997E-06  0.8985E+00
channel    3 :     2 T    73102     8219  0.1183E-06  0.6215E-07  0.9444E+00
channel    4 :     2 T    75070     8835  0.1206E-06  0.6652E-07  0.7496E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0260470600728572E-007  +/-   1.9803817795415304E-009
 Final result:   5.1368914403249659E-007  +/-   2.2148909053872266E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405928
   Stability unknown:                                          0
   Stable PS point:                                       405928
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405928
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405928
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.25102544    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.82086897    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.32089806    
 Time spent in Integrated_CT :    9.51062012    
 Time spent in Virtuals :    580.541931    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.46430206    
 Time spent in N1body_prefactor :   0.611900985    
 Time spent in Adding_alphas_pdf :    10.6074209    
 Time spent in Reweight_scale :    39.0259819    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.7055588    
 Time spent in Applying_cuts :    4.82516098    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.3956528    
 Time spent in Other_tasks :    21.7185059    
 Time spent in Total :    736.799805    
Time in seconds: 756



LOG file for integration channel /P0_uux_emep/all_G1_2, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       37262
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           2
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,   6314
  with seed                   49
 Ranmar initialization seeds         124       15738
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.417461D+04 0.417461D+04  1.00
 muF1, muF1_reference: 0.417461D+04 0.417461D+04  1.00
 muF2, muF2_reference: 0.417461D+04 0.417461D+04  1.00
 QES,  QES_reference:  0.417461D+04 0.417461D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5082784081817996E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4128217318449111E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4053507814024799E-005           OLP:   -1.4053507814024788E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3422967527991838E-006           OLP:   -5.3422967527983037E-006
  FINITE:
           OLP:   -9.3456211220156217E-004
           BORN:    4.0501632138598646E-003
  MOMENTA (Exyzm): 
           1   2392.0674283192184        0.0000000000000000        0.0000000000000000        2392.0674283192184        0.0000000000000000     
           2   2392.0674283192184       -0.0000000000000000       -0.0000000000000000       -2392.0674283192184        0.0000000000000000     
           3   2392.0674283192184       -1467.3524482151017       -1374.6518518272076        1295.8378218785310        0.0000000000000000     
           4   2392.0674283192184        1467.3524482151017        1374.6518518272076       -1295.8378218785310        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4053507814024799E-005           OLP:   -1.4053507814024788E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3422967527991838E-006           OLP:   -5.3422967527983037E-006
ABS integral  = 0.9012E-06  +/-  0.1957E-08  (   0.217 %)
Integral      = 0.5159E-06  +/-  0.2192E-08  (   0.425 %)
Virtual       = 0.2045E-08  +/-  0.1056E-08  (  51.632 %)
Virtual ratio = -.1938E+00  +/-  0.4129E-03  (   0.213 %)
ABS virtual   = 0.4835E-06  +/-  0.8351E-09  (   0.173 %)
Born          = 0.1898E-05  +/-  0.2682E-08  (   0.141 %)
V  2          = 0.2045E-08  +/-  0.1056E-08  (  51.632 %)
B  2          = 0.1898E-05  +/-  0.2682E-08  (   0.141 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9012E-06  +/-  0.1957E-08  (   0.217 %)
accumulated results Integral      = 0.5159E-06  +/-  0.2192E-08  (   0.425 %)
accumulated results Virtual       = 0.2045E-08  +/-  0.1056E-08  (  51.632 %)
accumulated results Virtual ratio = -.1938E+00  +/-  0.4129E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4835E-06  +/-  0.8351E-09  (   0.173 %)
accumulated results Born          = 0.1898E-05  +/-  0.2682E-08  (   0.141 %)
accumulated results V  2          = 0.2045E-08  +/-  0.1056E-08  (  51.632 %)
accumulated results B  2          = 0.1898E-05  +/-  0.2682E-08  (   0.141 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   203803    24013  0.3289E-06  0.1873E-06  0.9658E+00
channel    2 :     1 T   208488    24468  0.3342E-06  0.1995E-06  0.9276E+00
channel    3 :     2 T    73595     8219  0.1190E-06  0.6148E-07  0.7503E+00
channel    4 :     2 T    73981     8835  0.1191E-06  0.6766E-07  0.9468E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0116439206186385E-007  +/-   1.9571398727157607E-009
 Final result:   5.1590022110497784E-007  +/-   2.1921495764650924E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406173
   Stability unknown:                                          0
   Stable PS point:                                       406173
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406173
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406173
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.25477386    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.82146454    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.31960154    
 Time spent in Integrated_CT :    9.55224609    
 Time spent in Virtuals :    580.633240    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.49079990    
 Time spent in N1body_prefactor :   0.603032887    
 Time spent in Adding_alphas_pdf :    10.6106968    
 Time spent in Reweight_scale :    38.9676628    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.4709263    
 Time spent in Applying_cuts :    4.80066442    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.4271011    
 Time spent in Other_tasks :    21.9591675    
 Time spent in Total :    736.911377    
Time in seconds: 757



LOG file for integration channel /P0_uux_emep/all_G1_3, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       37260
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           3
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,   9471
  with seed                   49
 Ranmar initialization seeds         124       18895
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.421026D+04 0.421026D+04  1.00
 muF1, muF1_reference: 0.421026D+04 0.421026D+04  1.00
 muF2, muF2_reference: 0.421026D+04 0.421026D+04  1.00
 QES,  QES_reference:  0.421026D+04 0.421026D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5022490037117667E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4073433262067695E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.3994500000528033E-005           OLP:   -1.3994500000528035E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.4427275079164138E-006           OLP:   -5.4427275079165357E-006
  FINITE:
           OLP:   -9.3339699410482110E-004
           BORN:    4.0331574044407811E-003
  MOMENTA (Exyzm): 
           1   2411.1177455478223        0.0000000000000000        0.0000000000000000        2411.1177455478223        0.0000000000000000     
           2   2411.1177455478223       -0.0000000000000000       -0.0000000000000000       -2411.1177455478223        0.0000000000000000     
           3   2411.1177455478223       -1119.5516298039620       -1695.6402641122245        1298.0358337967143        0.0000000000000000     
           4   2411.1177455478223        1119.5516298039620        1695.6402641122245       -1298.0358337967143        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.3994500000528033E-005           OLP:   -1.3994500000528035E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.4427275079164104E-006           OLP:   -5.4427275079165357E-006
ABS integral  = 0.9013E-06  +/-  0.1791E-08  (   0.199 %)
Integral      = 0.5174E-06  +/-  0.2044E-08  (   0.395 %)
Virtual       = 0.9840E-09  +/-  0.1060E-08  ( 107.695 %)
Virtual ratio = -.1936E+00  +/-  0.4124E-03  (   0.213 %)
ABS virtual   = 0.4836E-06  +/-  0.8398E-09  (   0.174 %)
Born          = 0.1900E-05  +/-  0.2710E-08  (   0.143 %)
V  2          = 0.9840E-09  +/-  0.1060E-08  ( 107.695 %)
B  2          = 0.1900E-05  +/-  0.2710E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9013E-06  +/-  0.1791E-08  (   0.199 %)
accumulated results Integral      = 0.5174E-06  +/-  0.2044E-08  (   0.395 %)
accumulated results Virtual       = 0.9840E-09  +/-  0.1060E-08  ( 107.695 %)
accumulated results Virtual ratio = -.1936E+00  +/-  0.4124E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4836E-06  +/-  0.8398E-09  (   0.174 %)
accumulated results Born          = 0.1900E-05  +/-  0.2710E-08  (   0.143 %)
accumulated results V  2          = 0.9840E-09  +/-  0.1060E-08  ( 107.695 %)
accumulated results B  2          = 0.1900E-05  +/-  0.2710E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   203417    24013  0.3264E-06  0.1841E-06  0.1000E+01
channel    2 :     1 T   208439    24468  0.3371E-06  0.2008E-06  0.9139E+00
channel    3 :     2 T    73459     8219  0.1171E-06  0.6322E-07  0.1000E+01
channel    4 :     2 T    74554     8835  0.1206E-06  0.6922E-07  0.9648E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0125364183864385E-007  +/-   1.7906430424760467E-009
 Final result:   5.1736243905042379E-007  +/-   2.0442882728671301E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406164
   Stability unknown:                                          0
   Stable PS point:                                       406164
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406164
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406164
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.22993827    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.89037037    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.24572611    
 Time spent in Integrated_CT :    9.28912354    
 Time spent in Virtuals :    571.594910    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.44252205    
 Time spent in N1body_prefactor :   0.604489803    
 Time spent in Adding_alphas_pdf :    10.6054173    
 Time spent in Reweight_scale :    39.5779305    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.6016912    
 Time spent in Applying_cuts :    4.77725220    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.8543892    
 Time spent in Other_tasks :    21.3945312    
 Time spent in Total :    728.108276    
Time in seconds: 747



LOG file for integration channel /P0_uux_emep/all_G1_4, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       37259
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           4
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,  12628
  with seed                   49
 Ranmar initialization seeds         124       22052
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.439919D+04 0.439919D+04  1.00
 muF1, muF1_reference: 0.439919D+04 0.439919D+04  1.00
 muF2, muF2_reference: 0.439919D+04 0.439919D+04  1.00
 QES,  QES_reference:  0.439919D+04 0.439919D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4712808445415460E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4063743945847152E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4349572926562581E-005           OLP:   -1.4349572926562576E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.8166822302322100E-006           OLP:   -4.8166822302588669E-006
  FINITE:
           OLP:   -9.6760691092909017E-004
           BORN:    4.1354879629243750E-003
  MOMENTA (Exyzm): 
           1   2414.5058891950393        0.0000000000000000        0.0000000000000000        2414.5058891950393        0.0000000000000000     
           2   2414.5058891950393       -0.0000000000000000       -0.0000000000000000       -2414.5058891950393        0.0000000000000000     
           3   2414.5058891950393       -1421.9074786899387       -1410.4709940777741        1348.5508466010483        0.0000000000000000     
           4   2414.5058891950393        1421.9074786899387        1410.4709940777741       -1348.5508466010483        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4349572926562581E-005           OLP:   -1.4349572926562576E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.8166822302322100E-006           OLP:   -4.8166822302588669E-006
ABS integral  = 0.9034E-06  +/-  0.1851E-08  (   0.205 %)
Integral      = 0.5143E-06  +/-  0.2100E-08  (   0.408 %)
Virtual       = -.1570E-09  +/-  0.1061E-08  ( 675.824 %)
Virtual ratio = -.1937E+00  +/-  0.4123E-03  (   0.213 %)
ABS virtual   = 0.4836E-06  +/-  0.8417E-09  (   0.174 %)
Born          = 0.1901E-05  +/-  0.2710E-08  (   0.143 %)
V  2          = -.1570E-09  +/-  0.1061E-08  ( 675.824 %)
B  2          = 0.1901E-05  +/-  0.2710E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9034E-06  +/-  0.1851E-08  (   0.205 %)
accumulated results Integral      = 0.5143E-06  +/-  0.2100E-08  (   0.408 %)
accumulated results Virtual       = -.1570E-09  +/-  0.1061E-08  ( 675.824 %)
accumulated results Virtual ratio = -.1937E+00  +/-  0.4123E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4836E-06  +/-  0.8417E-09  (   0.174 %)
accumulated results Born          = 0.1901E-05  +/-  0.2710E-08  (   0.143 %)
accumulated results V  2          = -.1570E-09  +/-  0.1061E-08  ( 675.824 %)
accumulated results B  2          = 0.1901E-05  +/-  0.2710E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   203767    24013  0.3292E-06  0.1851E-06  0.1000E+01
channel    2 :     1 T   208224    24468  0.3362E-06  0.1994E-06  0.9147E+00
channel    3 :     2 T    73182     8219  0.1183E-06  0.6242E-07  0.9544E+00
channel    4 :     2 T    74699     8835  0.1196E-06  0.6742E-07  0.9520E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0337077394359922E-007  +/-   1.8509488782781070E-009
 Final result:   5.1426595317927457E-007  +/-   2.1002984377919182E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405947
   Stability unknown:                                          0
   Stable PS point:                                       405947
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405947
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405947
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.25681257    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.85727310    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.24758625    
 Time spent in Integrated_CT :    9.11163330    
 Time spent in Virtuals :    571.278503    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.33060265    
 Time spent in N1body_prefactor :   0.607049823    
 Time spent in Adding_alphas_pdf :    10.5507555    
 Time spent in Reweight_scale :    39.3386574    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.5407906    
 Time spent in Applying_cuts :    4.71012020    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.5441093    
 Time spent in Other_tasks :    21.5155029    
 Time spent in Total :    726.889526    
Time in seconds: 747



LOG file for integration channel /P0_uux_emep/all_G1_5, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       37261
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           5
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,  15785
  with seed                   49
 Ranmar initialization seeds         124       25209
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.437659D+04 0.437659D+04  1.00
 muF1, muF1_reference: 0.437659D+04 0.437659D+04  1.00
 muF2, muF2_reference: 0.437659D+04 0.437659D+04  1.00
 QES,  QES_reference:  0.437659D+04 0.437659D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4749026941125840E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4108150122563332E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4167930448662762E-005           OLP:   -1.4167930448662770E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1433483113070409E-006           OLP:   -5.1433483113070409E-006
  FINITE:
           OLP:   -9.4688848884952608E-004
           BORN:    4.0831393470627877E-003
  MOMENTA (Exyzm): 
           1   2399.0245469854431        0.0000000000000000        0.0000000000000000        2399.0245469854431        0.0000000000000000     
           2   2399.0245469854431       -0.0000000000000000       -0.0000000000000000       -2399.0245469854431        0.0000000000000000     
           3   2399.0245469854431       -1890.7396059064504       -671.24454880406211        1315.2388662886533        0.0000000000000000     
           4   2399.0245469854431        1890.7396059064504        671.24454880406211       -1315.2388662886533        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4167930448662762E-005           OLP:   -1.4167930448662770E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1433483113070376E-006           OLP:   -5.1433483113070409E-006
 Error #15 in genps_fks.f  -1.3709068298339844E-006           3
ABS integral  = 0.9014E-06  +/-  0.1823E-08  (   0.202 %)
Integral      = 0.5148E-06  +/-  0.2074E-08  (   0.403 %)
Virtual       = -.1823E-08  +/-  0.1057E-08  (  58.003 %)
Virtual ratio = -.1944E+00  +/-  0.4127E-03  (   0.212 %)
ABS virtual   = 0.4829E-06  +/-  0.8376E-09  (   0.173 %)
Born          = 0.1899E-05  +/-  0.2710E-08  (   0.143 %)
V  2          = -.1823E-08  +/-  0.1057E-08  (  58.003 %)
B  2          = 0.1899E-05  +/-  0.2710E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9014E-06  +/-  0.1823E-08  (   0.202 %)
accumulated results Integral      = 0.5148E-06  +/-  0.2074E-08  (   0.403 %)
accumulated results Virtual       = -.1823E-08  +/-  0.1057E-08  (  58.003 %)
accumulated results Virtual ratio = -.1944E+00  +/-  0.4127E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4829E-06  +/-  0.8376E-09  (   0.173 %)
accumulated results Born          = 0.1899E-05  +/-  0.2710E-08  (   0.143 %)
accumulated results V  2          = -.1823E-08  +/-  0.1057E-08  (  58.003 %)
accumulated results B  2          = 0.1899E-05  +/-  0.2710E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   204474    24013  0.3287E-06  0.1853E-06  0.1000E+01
channel    2 :     1 T   208123    24468  0.3360E-06  0.2009E-06  0.9498E+00
channel    3 :     2 T    72675     8219  0.1168E-06  0.6094E-07  0.8611E+00
channel    4 :     2 T    74597     8835  0.1200E-06  0.6762E-07  0.9710E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0138165740277371E-007  +/-   1.8229006725123451E-009
 Final result:   5.1482972769526643E-007  +/-   2.0738274845571436E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406031
   Stability unknown:                                          0
   Stable PS point:                                       406031
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406031
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406031
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.23054540    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.80915070    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.24173355    
 Time spent in Integrated_CT :    9.10546875    
 Time spent in Virtuals :    571.239746    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.50914907    
 Time spent in N1body_prefactor :   0.604248703    
 Time spent in Adding_alphas_pdf :    10.5672741    
 Time spent in Reweight_scale :    39.4965515    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.1238842    
 Time spent in Applying_cuts :    4.77378273    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.5407410    
 Time spent in Other_tasks :    21.2813721    
 Time spent in Total :    726.523682    
Time in seconds: 747



LOG file for integration channel /P0_uux_emep/all_G1_6, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       37270
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           6
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,  18942
  with seed                   49
 Ranmar initialization seeds         124       28366
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.280524D+04 0.280524D+04  1.00
 muF1, muF1_reference: 0.280524D+04 0.280524D+04  1.00
 muF2, muF2_reference: 0.280524D+04 0.280524D+04  1.00
 QES,  QES_reference:  0.280524D+04 0.280524D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.8014342309306442E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3932655234064268E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
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 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4253677075433828E-005           OLP:   -1.4253677075433838E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9904540351027325E-006           OLP:   -4.9904540351028189E-006
  FINITE:
           OLP:   -9.6926220913789302E-004
           BORN:    4.1078511726124322E-003
  MOMENTA (Exyzm): 
           1   2460.9081674760691        0.0000000000000000        0.0000000000000000        2460.9081674760691        0.0000000000000000     
           2   2460.9081674760691       -0.0000000000000000       -0.0000000000000000       -2460.9081674760691        0.0000000000000000     
           3   2460.9081674760691       -1898.9051470832455       -772.96870776288199        1361.1567242424965        0.0000000000000000     
           4   2460.9081674760691        1898.9051470832455        772.96870776288199       -1361.1567242424965        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4253677075433828E-005           OLP:   -1.4253677075433838E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9904540351027334E-006           OLP:   -4.9904540351028189E-006
ABS integral  = 0.9036E-06  +/-  0.1876E-08  (   0.208 %)
Integral      = 0.5118E-06  +/-  0.2123E-08  (   0.415 %)
Virtual       = -.9153E-09  +/-  0.1060E-08  ( 115.825 %)
Virtual ratio = -.1942E+00  +/-  0.4121E-03  (   0.212 %)
ABS virtual   = 0.4836E-06  +/-  0.8404E-09  (   0.174 %)
Born          = 0.1900E-05  +/-  0.2708E-08  (   0.142 %)
V  2          = -.9153E-09  +/-  0.1060E-08  ( 115.825 %)
B  2          = 0.1900E-05  +/-  0.2708E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9036E-06  +/-  0.1876E-08  (   0.208 %)
accumulated results Integral      = 0.5118E-06  +/-  0.2123E-08  (   0.415 %)
accumulated results Virtual       = -.9153E-09  +/-  0.1060E-08  ( 115.825 %)
accumulated results Virtual ratio = -.1942E+00  +/-  0.4121E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4836E-06  +/-  0.8404E-09  (   0.174 %)
accumulated results Born          = 0.1900E-05  +/-  0.2708E-08  (   0.142 %)
accumulated results V  2          = -.9153E-09  +/-  0.1060E-08  ( 115.825 %)
accumulated results B  2          = 0.1900E-05  +/-  0.2708E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   204029    24013  0.3289E-06  0.1846E-06  0.1000E+01
channel    2 :     1 T   208134    24468  0.3352E-06  0.1979E-06  0.9187E+00
channel    3 :     2 T    73361     8219  0.1195E-06  0.6201E-07  0.8423E+00
channel    4 :     2 T    74338     8835  0.1199E-06  0.6735E-07  0.9688E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0362982149232327E-007  +/-   1.8756985095452279E-009
 Final result:   5.1184502187542492E-007  +/-   2.1233840313827860E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405871
   Stability unknown:                                          0
   Stable PS point:                                       405871
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405871
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405871
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.24253380    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.80423784    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.22180796    
 Time spent in Integrated_CT :    9.13592529    
 Time spent in Virtuals :    567.584595    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.33929634    
 Time spent in N1body_prefactor :   0.599980950    
 Time spent in Adding_alphas_pdf :    10.6247444    
 Time spent in Reweight_scale :    39.5685654    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.5615101    
 Time spent in Applying_cuts :    4.75236940    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.6032181    
 Time spent in Other_tasks :    21.1788940    
 Time spent in Total :    723.217651    
Time in seconds: 746



LOG file for integration channel /P0_uux_emep/all_G1_7, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25020
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           7
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,  22099
  with seed                   49
 Ranmar initialization seeds         124        1442
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.276237D+04 0.276237D+04  1.00
 muF1, muF1_reference: 0.276237D+04 0.276237D+04  1.00
 muF2, muF2_reference: 0.276237D+04 0.276237D+04  1.00
 QES,  QES_reference:  0.276237D+04 0.276237D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.8132589999250213E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4113240248792886E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4184519282737199E-005           OLP:   -1.4184519282737190E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1140906182319925E-006           OLP:   -5.1140906182320179E-006
  FINITE:
           OLP:   -9.4803555838996866E-004
           BORN:    4.0879201808886358E-003
  MOMENTA (Exyzm): 
           1   2397.2575596941547        0.0000000000000000        0.0000000000000000        2397.2575596941547        0.0000000000000000     
           2   2397.2575596941547       -0.0000000000000000       -0.0000000000000000       -2397.2575596941547        0.0000000000000000     
           3   2397.2575596941547       -1853.6542393483105       -759.97719454925812        1316.5274141550758        0.0000000000000000     
           4   2397.2575596941547        1853.6542393483105        759.97719454925812       -1316.5274141550758        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4184519282737199E-005           OLP:   -1.4184519282737190E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1140906182319891E-006           OLP:   -5.1140906182320179E-006
ABS integral  = 0.9028E-06  +/-  0.1878E-08  (   0.208 %)
Integral      = 0.5143E-06  +/-  0.2124E-08  (   0.413 %)
Virtual       = 0.3073E-09  +/-  0.1060E-08  ( 344.938 %)
Virtual ratio = -.1941E+00  +/-  0.4125E-03  (   0.213 %)
ABS virtual   = 0.4840E-06  +/-  0.8399E-09  (   0.174 %)
Born          = 0.1901E-05  +/-  0.2705E-08  (   0.142 %)
V  2          = 0.3073E-09  +/-  0.1060E-08  ( 344.938 %)
B  2          = 0.1901E-05  +/-  0.2705E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9028E-06  +/-  0.1878E-08  (   0.208 %)
accumulated results Integral      = 0.5143E-06  +/-  0.2124E-08  (   0.413 %)
accumulated results Virtual       = 0.3073E-09  +/-  0.1060E-08  ( 344.938 %)
accumulated results Virtual ratio = -.1941E+00  +/-  0.4125E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4840E-06  +/-  0.8399E-09  (   0.174 %)
accumulated results Born          = 0.1901E-05  +/-  0.2705E-08  (   0.142 %)
accumulated results V  2          = 0.3073E-09  +/-  0.1060E-08  ( 344.938 %)
accumulated results B  2          = 0.1901E-05  +/-  0.2705E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                   2                        3                         4
channel    1 :     1 T   204110    24013  0.3273E-06  0.1854E-06  0.9919E+00
channel    2 :     1 T   207998    24468  0.3366E-06  0.1999E-06  0.9411E+00
channel    3 :     2 T    73142     8219  0.1179E-06  0.6165E-07  0.8368E+00
channel    4 :     2 T    74620     8835  0.1210E-06  0.6741E-07  0.9539E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0275088443134537E-007  +/-   1.8784100695558603E-009
 Final result:   5.1429292694469411E-007  +/-   2.1240567029623728E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406269
   Stability unknown:                                          0
   Stable PS point:                                       406269
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406269
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406269
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.37540722    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.71880531    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.22292423    
 Time spent in Integrated_CT :    9.04193115    
 Time spent in Virtuals :    557.941650    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.08489037    
 Time spent in N1body_prefactor :   0.707050264    
 Time spent in Adding_alphas_pdf :    10.4174671    
 Time spent in Reweight_scale :    43.5263901    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.7297077    
 Time spent in Applying_cuts :    4.97088718    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.6919594    
 Time spent in Other_tasks :    22.6394043    
 Time spent in Total :    722.068481    
Time in seconds: 731



LOG file for integration channel /P0_uux_emep/all_G1_8, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28397
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           8
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,  25256
  with seed                   49
 Ranmar initialization seeds         124        4599
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.416446D+04 0.416446D+04  1.00
 muF1, muF1_reference: 0.416446D+04 0.416446D+04  1.00
 muF2, muF2_reference: 0.416446D+04 0.416446D+04  1.00
 QES,  QES_reference:  0.416446D+04 0.416446D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5100050255966888E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4052076302390357E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4004275410045288E-005           OLP:   -1.4004275410045267E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.4261156012777486E-006           OLP:   -5.4261156012777571E-006
  FINITE:
           OLP:   -9.3601478682770367E-004
           BORN:    4.0359746373018670E-003
  MOMENTA (Exyzm): 
           1   2418.5933598346169        0.0000000000000000        0.0000000000000000        2418.5933598346169        0.0000000000000000     
           2   2418.5933598346169       -0.0000000000000000       -0.0000000000000000       -2418.5933598346169        0.0000000000000000     
           3   2418.5933598346169       -1921.5082819601023       -677.13110967384739        1303.4159822967879        0.0000000000000000     
           4   2418.5933598346169        1921.5082819601023        677.13110967384739       -1303.4159822967879        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4004275410045288E-005           OLP:   -1.4004275410045267E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.4261156012777461E-006           OLP:   -5.4261156012777571E-006
ABS integral  = 0.9010E-06  +/-  0.1926E-08  (   0.214 %)
Integral      = 0.5176E-06  +/-  0.2164E-08  (   0.418 %)
Virtual       = 0.1510E-08  +/-  0.1055E-08  (  69.847 %)
Virtual ratio = -.1928E+00  +/-  0.4124E-03  (   0.214 %)
ABS virtual   = 0.4827E-06  +/-  0.8347E-09  (   0.173 %)
Born          = 0.1898E-05  +/-  0.2695E-08  (   0.142 %)
V  2          = 0.1510E-08  +/-  0.1055E-08  (  69.847 %)
B  2          = 0.1898E-05  +/-  0.2695E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9010E-06  +/-  0.1926E-08  (   0.214 %)
accumulated results Integral      = 0.5176E-06  +/-  0.2164E-08  (   0.418 %)
accumulated results Virtual       = 0.1510E-08  +/-  0.1055E-08  (  69.847 %)
accumulated results Virtual ratio = -.1928E+00  +/-  0.4124E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4827E-06  +/-  0.8347E-09  (   0.173 %)
accumulated results Born          = 0.1898E-05  +/-  0.2695E-08  (   0.142 %)
accumulated results V  2          = 0.1510E-08  +/-  0.1055E-08  (  69.847 %)
accumulated results B  2          = 0.1898E-05  +/-  0.2695E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                     2                       3                         4
channel    1 :     1 T   204224    24013  0.3269E-06  0.1872E-06  0.9936E+00
channel    2 :     1 T   207937    24468  0.3362E-06  0.2012E-06  0.8813E+00
channel    3 :     2 T    73142     8219  0.1177E-06  0.6131E-07  0.8306E+00
channel    4 :     2 T    74570     8835  0.1201E-06  0.6782E-07  0.9687E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0096119707714913E-007  +/-   1.9259827003778640E-009
 Final result:   5.1759826425077033E-007  +/-   2.1635027357830630E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406068
   Stability unknown:                                          0
   Stable PS point:                                       406068
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406068
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406068
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.23524654    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.59097862    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.01512241    
 Time spent in Integrated_CT :    9.05035400    
 Time spent in Virtuals :    594.082642    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.28615475    
 Time spent in N1body_prefactor :   0.583736777    
 Time spent in Adding_alphas_pdf :    10.1732359    
 Time spent in Reweight_scale :    37.8974571    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.7402020    
 Time spent in Applying_cuts :    4.65844345    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    34.6999626    
 Time spent in Other_tasks :    20.4041748    
 Time spent in Total :    744.417664    
Time in seconds: 799



LOG file for integration channel /P0_uux_emep/all_G1_9, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28404
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           9
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,  28413
  with seed                   49
 Ranmar initialization seeds         124        7756
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.429244D+04 0.429244D+04  1.00
 muF1, muF1_reference: 0.429244D+04 0.429244D+04  1.00
 muF2, muF2_reference: 0.429244D+04 0.429244D+04  1.00
 QES,  QES_reference:  0.429244D+04 0.429244D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4885811639887709E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4101885324492592E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4092378391113014E-005           OLP:   -1.4092378391113012E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2752494932518532E-006           OLP:   -5.2752494932524723E-006
  FINITE:
           OLP:   -9.4030373598232432E-004
           BORN:    4.0613655544788439E-003
  MOMENTA (Exyzm): 
           1   2401.2014465252091        0.0000000000000000        0.0000000000000000        2401.2014465252091        0.0000000000000000     
           2   2401.2014465252091       -0.0000000000000000       -0.0000000000000000       -2401.2014465252091        0.0000000000000000     
           3   2401.2014465252091       -1137.2714580536765       -1663.2655042789590        1306.1125065502135        0.0000000000000000     
           4   2401.2014465252091        1137.2714580536765        1663.2655042789590       -1306.1125065502135        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4092378391113014E-005           OLP:   -1.4092378391113012E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2752494932518565E-006           OLP:   -5.2752494932524723E-006
ABS integral  = 0.9050E-06  +/-  0.1843E-08  (   0.204 %)
Integral      = 0.5170E-06  +/-  0.2093E-08  (   0.405 %)
Virtual       = 0.1281E-08  +/-  0.1061E-08  (  82.814 %)
Virtual ratio = -.1931E+00  +/-  0.4132E-03  (   0.214 %)
ABS virtual   = 0.4838E-06  +/-  0.8410E-09  (   0.174 %)
Born          = 0.1899E-05  +/-  0.2707E-08  (   0.143 %)
V  2          = 0.1281E-08  +/-  0.1061E-08  (  82.814 %)
B  2          = 0.1899E-05  +/-  0.2707E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9050E-06  +/-  0.1843E-08  (   0.204 %)
accumulated results Integral      = 0.5170E-06  +/-  0.2093E-08  (   0.405 %)
accumulated results Virtual       = 0.1281E-08  +/-  0.1061E-08  (  82.814 %)
accumulated results Virtual ratio = -.1931E+00  +/-  0.4132E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4838E-06  +/-  0.8410E-09  (   0.174 %)
accumulated results Born          = 0.1899E-05  +/-  0.2707E-08  (   0.143 %)
accumulated results V  2          = 0.1281E-08  +/-  0.1061E-08  (  82.814 %)
accumulated results B  2          = 0.1899E-05  +/-  0.2707E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                   2                        3                         4
channel    1 :     1 T   204079    24013  0.3291E-06  0.1866E-06  0.9998E+00
channel    2 :     1 T   208212    24468  0.3372E-06  0.2008E-06  0.9426E+00
channel    3 :     2 T    72943     8219  0.1174E-06  0.6241E-07  0.9499E+00
channel    4 :     2 T    74636     8835  0.1212E-06  0.6711E-07  0.9020E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0504705321743476E-007  +/-   1.8430040051178862E-009
 Final result:   5.1699756449528837E-007  +/-   2.0933916234962572E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405944
   Stability unknown:                                          0
   Stable PS point:                                       405944
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405944
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405944
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.22556400    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.60525370    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.05112267    
 Time spent in Integrated_CT :    8.95611572    
 Time spent in Virtuals :    592.102905    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.32820034    
 Time spent in N1body_prefactor :   0.583555222    
 Time spent in Adding_alphas_pdf :    10.2264853    
 Time spent in Reweight_scale :    38.0529785    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8088360    
 Time spent in Applying_cuts :    4.70374918    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    34.8220673    
 Time spent in Other_tasks :    20.5631104    
 Time spent in Total :    743.029968    
Time in seconds: 798



LOG file for integration channel /P0_uux_emep/all_G1_10, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28402
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          10
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,  31570
  with seed                   49
 Ranmar initialization seeds         124       10913
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.435414D+04 0.435414D+04  1.00
 muF1, muF1_reference: 0.435414D+04 0.435414D+04  1.00
 muF2, muF2_reference: 0.435414D+04 0.435414D+04  1.00
 QES,  QES_reference:  0.435414D+04 0.435414D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4785207470144041E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4089546068057968E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4281322929045310E-005           OLP:   -1.4281322929045303E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9410192940456759E-006           OLP:   -4.9410192940518542E-006
  FINITE:
           OLP:   -9.5905810119926440E-004
           BORN:    4.1158185940416382E-003
  MOMENTA (Exyzm): 
           1   2405.4960111537948        0.0000000000000000        0.0000000000000000        2405.4960111537948        0.0000000000000000     
           2   2405.4960111537948       -0.0000000000000000       -0.0000000000000000       -2405.4960111537948        0.0000000000000000     
           3   2405.4960111537948       -1392.6630244334647       -1437.5978200766010        1334.2463294922936        0.0000000000000000     
           4   2405.4960111537948        1392.6630244334647        1437.5978200766010       -1334.2463294922936        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4281322929045310E-005           OLP:   -1.4281322929045303E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9410192940456759E-006           OLP:   -4.9410192940518542E-006
ABS integral  = 0.9031E-06  +/-  0.1842E-08  (   0.204 %)
Integral      = 0.5140E-06  +/-  0.2093E-08  (   0.407 %)
Virtual       = -.3972E-09  +/-  0.1059E-08  ( 266.630 %)
Virtual ratio = -.1937E+00  +/-  0.4126E-03  (   0.213 %)
ABS virtual   = 0.4834E-06  +/-  0.8391E-09  (   0.174 %)
Born          = 0.1899E-05  +/-  0.2701E-08  (   0.142 %)
V  2          = -.3972E-09  +/-  0.1059E-08  ( 266.630 %)
B  2          = 0.1899E-05  +/-  0.2701E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9031E-06  +/-  0.1842E-08  (   0.204 %)
accumulated results Integral      = 0.5140E-06  +/-  0.2093E-08  (   0.407 %)
accumulated results Virtual       = -.3972E-09  +/-  0.1059E-08  ( 266.630 %)
accumulated results Virtual ratio = -.1937E+00  +/-  0.4126E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4834E-06  +/-  0.8391E-09  (   0.174 %)
accumulated results Born          = 0.1899E-05  +/-  0.2701E-08  (   0.142 %)
accumulated results V  2          = -.3972E-09  +/-  0.1059E-08  ( 266.630 %)
accumulated results B  2          = 0.1899E-05  +/-  0.2701E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                   2                        3                         4
channel    1 :     1 T   204066    24013  0.3287E-06  0.1865E-06  0.1000E+01
channel    2 :     1 T   208124    24468  0.3366E-06  0.1996E-06  0.9047E+00
channel    3 :     2 T    72994     8219  0.1175E-06  0.6112E-07  0.9697E+00
channel    4 :     2 T    74690     8835  0.1203E-06  0.6674E-07  0.9650E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0309350205565633E-007  +/-   1.8423790655634269E-009
 Final result:   5.1402897465613696E-007  +/-   2.0926402012691196E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406168
   Stability unknown:                                          0
   Stable PS point:                                       406168
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406168
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406168
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.22009325    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.59830189    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.04291821    
 Time spent in Integrated_CT :    8.97460938    
 Time spent in Virtuals :    593.545105    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.29759502    
 Time spent in N1body_prefactor :   0.589766741    
 Time spent in Adding_alphas_pdf :    10.1991396    
 Time spent in Reweight_scale :    38.0810432    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.9285860    
 Time spent in Applying_cuts :    4.65507698    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    34.7806740    
 Time spent in Other_tasks :    20.5815430    
 Time spent in Total :    744.494568    
Time in seconds: 800



LOG file for integration channel /P0_uux_emep/all_G1_11, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28399
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          11
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,  34727
  with seed                   49
 Ranmar initialization seeds         124       14070
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.403128D+04 0.403128D+04  1.00
 muF1, muF1_reference: 0.403128D+04 0.403128D+04  1.00
 muF2, muF2_reference: 0.403128D+04 0.403128D+04  1.00
 QES,  QES_reference:  0.403128D+04 0.403128D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5331429550782619E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4041880178823155E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4138116193301861E-005           OLP:   -1.4138116193301860E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1955236656133139E-006           OLP:   -5.1955236656160973E-006
  FINITE:
           OLP:   -9.4942524347810427E-004
           BORN:    4.0745470011581703E-003
  MOMENTA (Exyzm): 
           1   2422.1720869663200        0.0000000000000000        0.0000000000000000        2422.1720869663200        0.0000000000000000     
           2   2422.1720869663200       -0.0000000000000000       -0.0000000000000000       -2422.1720869663200        0.0000000000000000     
           3   2422.1720869663200       -1510.2864470418251       -1354.0361730260447        1323.8347740173399        0.0000000000000000     
           4   2422.1720869663200        1510.2864470418251        1354.0361730260447       -1323.8347740173399        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4138116193301861E-005           OLP:   -1.4138116193301860E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1955236656133148E-006           OLP:   -5.1955236656160973E-006
ABS integral  = 0.9012E-06  +/-  0.1787E-08  (   0.198 %)
Integral      = 0.5169E-06  +/-  0.2041E-08  (   0.395 %)
Virtual       = -.1663E-08  +/-  0.1057E-08  (  63.589 %)
Virtual ratio = -.1942E+00  +/-  0.4123E-03  (   0.212 %)
ABS virtual   = 0.4833E-06  +/-  0.8369E-09  (   0.173 %)
Born          = 0.1902E-05  +/-  0.2704E-08  (   0.142 %)
V  2          = -.1663E-08  +/-  0.1057E-08  (  63.589 %)
B  2          = 0.1902E-05  +/-  0.2704E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9012E-06  +/-  0.1787E-08  (   0.198 %)
accumulated results Integral      = 0.5169E-06  +/-  0.2041E-08  (   0.395 %)
accumulated results Virtual       = -.1663E-08  +/-  0.1057E-08  (  63.589 %)
accumulated results Virtual ratio = -.1942E+00  +/-  0.4123E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4833E-06  +/-  0.8369E-09  (   0.173 %)
accumulated results Born          = 0.1902E-05  +/-  0.2704E-08  (   0.142 %)
accumulated results V  2          = -.1663E-08  +/-  0.1057E-08  (  63.589 %)
accumulated results B  2          = 0.1902E-05  +/-  0.2704E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                   2                        3                         4
channel    1 :     1 T   203724    24013  0.3276E-06  0.1867E-06  0.1000E+01
channel    2 :     1 T   208154    24468  0.3356E-06  0.1995E-06  0.9304E+00
channel    3 :     2 T    73024     8219  0.1163E-06  0.6278E-07  0.1000E+01
channel    4 :     2 T    74973     8835  0.1216E-06  0.6792E-07  0.9362E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0115974208125346E-007  +/-   1.7870125734469959E-009
 Final result:   5.1686509116581832E-007  +/-   2.0412600054058024E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406398
   Stability unknown:                                          0
   Stable PS point:                                       406398
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406398
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406398
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21277213    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.57889557    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.98744488    
 Time spent in Integrated_CT :    9.02636719    
 Time spent in Virtuals :    593.302979    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.38102436    
 Time spent in N1body_prefactor :   0.596793175    
 Time spent in Adding_alphas_pdf :    10.3185167    
 Time spent in Reweight_scale :    38.3221512    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.1813231    
 Time spent in Applying_cuts :    4.70860195    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    34.9370918    
 Time spent in Other_tasks :    20.5900879    
 Time spent in Total :    745.144104    
Time in seconds: 800



LOG file for integration channel /P0_uux_emep/all_G1_12, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28709
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          12
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,  37884
  with seed                   49
 Ranmar initialization seeds         124       17227
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.420955D+04 0.420955D+04  1.00
 muF1, muF1_reference: 0.420955D+04 0.420955D+04  1.00
 muF2, muF2_reference: 0.420955D+04 0.420955D+04  1.00
 QES,  QES_reference:  0.420955D+04 0.420955D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5023696555141184E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4131733976082775E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4046385875931764E-005           OLP:   -1.4046385875931747E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3545136608881261E-006           OLP:   -5.3545136608934920E-006
  FINITE:
           OLP:   -9.3361641540733024E-004
           BORN:    4.0481107005615824E-003
  MOMENTA (Exyzm): 
           1   2390.8507180052939        0.0000000000000000        0.0000000000000000        2390.8507180052939        0.0000000000000000     
           2   2390.8507180052939       -0.0000000000000000       -0.0000000000000000       -2390.8507180052939        0.0000000000000000     
           3   2390.8507180052939       -1472.8215218358741       -1368.2083844699494        1294.2062189889289        0.0000000000000000     
           4   2390.8507180052939        1472.8215218358741        1368.2083844699494       -1294.2062189889289        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4046385875931764E-005           OLP:   -1.4046385875931747E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3545136608881269E-006           OLP:   -5.3545136608934920E-006
ABS integral  = 0.9012E-06  +/-  0.1871E-08  (   0.208 %)
Integral      = 0.5159E-06  +/-  0.2116E-08  (   0.410 %)
Virtual       = 0.4171E-10  +/-  0.1059E-08  ( ******* %)
Virtual ratio = -.1940E+00  +/-  0.4126E-03  (   0.213 %)
ABS virtual   = 0.4831E-06  +/-  0.8397E-09  (   0.174 %)
Born          = 0.1899E-05  +/-  0.2706E-08  (   0.143 %)
V  2          = 0.4171E-10  +/-  0.1059E-08  ( ******* %)
B  2          = 0.1899E-05  +/-  0.2706E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9012E-06  +/-  0.1871E-08  (   0.208 %)
accumulated results Integral      = 0.5159E-06  +/-  0.2116E-08  (   0.410 %)
accumulated results Virtual       = 0.4171E-10  +/-  0.1059E-08  ( ******* %)
accumulated results Virtual ratio = -.1940E+00  +/-  0.4126E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4831E-06  +/-  0.8397E-09  (   0.174 %)
accumulated results Born          = 0.1899E-05  +/-  0.2706E-08  (   0.143 %)
accumulated results V  2          = 0.4171E-10  +/-  0.1059E-08  ( ******* %)
accumulated results B  2          = 0.1899E-05  +/-  0.2706E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                   2                        3                         4
channel    1 :     1 T   204016    24013  0.3290E-06  0.1853E-06  0.9438E+00
channel    2 :     1 T   208334    24468  0.3341E-06  0.1998E-06  0.9461E+00
channel    3 :     2 T    73096     8219  0.1183E-06  0.6345E-07  0.9816E+00
channel    4 :     2 T    74430     8835  0.1197E-06  0.6739E-07  0.9132E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0117318017746247E-007  +/-   1.8712255277592505E-009
 Final result:   5.1590436237792191E-007  +/-   2.1158045558488786E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405912
   Stability unknown:                                          0
   Stable PS point:                                       405912
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405912
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405912
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.27628183    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.85599327    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.17592430    
 Time spent in Integrated_CT :    9.23138428    
 Time spent in Virtuals :    599.408386    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.49253225    
 Time spent in N1body_prefactor :   0.616311193    
 Time spent in Adding_alphas_pdf :    10.7821789    
 Time spent in Reweight_scale :    39.4706841    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.2924261    
 Time spent in Applying_cuts :    4.81471920    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.0175629    
 Time spent in Other_tasks :    20.9100952    
 Time spent in Total :    755.344543    
Time in seconds: 797



LOG file for integration channel /P0_uux_emep/all_G1_13, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28708
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          13
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,  41041
  with seed                   49
 Ranmar initialization seeds         124       20384
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.434326D+04 0.434326D+04  1.00
 muF1, muF1_reference: 0.434326D+04 0.434326D+04  1.00
 muF2, muF2_reference: 0.434326D+04 0.434326D+04  1.00
 QES,  QES_reference:  0.434326D+04 0.434326D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4802833321281861E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4089606294305221E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4278420644393896E-005           OLP:   -1.4278420644393877E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9462619128345598E-006           OLP:   -4.9462619128346530E-006
  FINITE:
           OLP:   -9.5877976172821218E-004
           BORN:    4.1149821675289938E-003
  MOMENTA (Exyzm): 
           1   2405.4750276918658        0.0000000000000000        0.0000000000000000        2405.4750276918658        0.0000000000000000     
           2   2405.4750276918658       -0.0000000000000000       -0.0000000000000000       -2405.4750276918658        0.0000000000000000     
           3   2405.4750276918658       -1979.9879730279174       -294.66703629976121        1333.8399728724196        0.0000000000000000     
           4   2405.4750276918658        1979.9879730279174        294.66703629976121       -1333.8399728724196        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4278420644393896E-005           OLP:   -1.4278420644393877E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9462619128345632E-006           OLP:   -4.9462619128346530E-006
ABS integral  = 0.8987E-06  +/-  0.2073E-08  (   0.231 %)
Integral      = 0.5118E-06  +/-  0.2296E-08  (   0.449 %)
Virtual       = -.1556E-09  +/-  0.1057E-08  ( 679.469 %)
Virtual ratio = -.1938E+00  +/-  0.4121E-03  (   0.213 %)
ABS virtual   = 0.4821E-06  +/-  0.8381E-09  (   0.174 %)
Born          = 0.1898E-05  +/-  0.2710E-08  (   0.143 %)
V  2          = -.1556E-09  +/-  0.1057E-08  ( 679.469 %)
B  2          = 0.1898E-05  +/-  0.2710E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8987E-06  +/-  0.2073E-08  (   0.231 %)
accumulated results Integral      = 0.5118E-06  +/-  0.2296E-08  (   0.449 %)
accumulated results Virtual       = -.1556E-09  +/-  0.1057E-08  ( 679.469 %)
accumulated results Virtual ratio = -.1938E+00  +/-  0.4121E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4821E-06  +/-  0.8381E-09  (   0.174 %)
accumulated results Born          = 0.1898E-05  +/-  0.2710E-08  (   0.143 %)
accumulated results V  2          = -.1556E-09  +/-  0.1057E-08  ( 679.469 %)
accumulated results B  2          = 0.1898E-05  +/-  0.2710E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   203628    24013  0.3258E-06  0.1841E-06  0.1000E+01
channel    2 :     1 T   207686    24468  0.3350E-06  0.1978E-06  0.7285E+00
channel    3 :     2 T    73593     8219  0.1180E-06  0.6289E-07  0.1000E+01
channel    4 :     2 T    74970     8835  0.1199E-06  0.6699E-07  0.9772E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9871410675137571E-007  +/-   2.0732989585176677E-009
 Final result:   5.1179260276298597E-007  +/-   2.2963785736674388E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405661
   Stability unknown:                                          0
   Stable PS point:                                       405661
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405661
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405661
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.26558280    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.78995943    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.16144753    
 Time spent in Integrated_CT :    9.18090820    
 Time spent in Virtuals :    598.265808    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.51131010    
 Time spent in N1body_prefactor :   0.618271708    
 Time spent in Adding_alphas_pdf :    10.5010395    
 Time spent in Reweight_scale :    39.1808128    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.4021559    
 Time spent in Applying_cuts :    4.77133369    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.6068039    
 Time spent in Other_tasks :    21.1588135    
 Time spent in Total :    753.414246    
Time in seconds: 796



LOG file for integration channel /P0_uux_emep/all_G1_14, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28698
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          14
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,  44198
  with seed                   49
 Ranmar initialization seeds         124       23541
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.431969D+04 0.431969D+04  1.00
 muF1, muF1_reference: 0.431969D+04 0.431969D+04  1.00
 muF2, muF2_reference: 0.431969D+04 0.431969D+04  1.00
 QES,  QES_reference:  0.431969D+04 0.431969D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4841176503173956E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4122931691002245E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4142898827002106E-005           OLP:   -1.4142898827002079E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1873404461943134E-006           OLP:   -5.1873404461943719E-006
  FINITE:
           OLP:   -9.4335249285358190E-004
           BORN:    4.0759253365413670E-003
  MOMENTA (Exyzm): 
           1   2393.8975673729237        0.0000000000000000        0.0000000000000000        2393.8975673729237        0.0000000000000000     
           2   2393.8975673729237       -0.0000000000000000       -0.0000000000000000       -2393.8975673729237        0.0000000000000000     
           3   2393.8975673729237       -1996.5756703175589       -175.77465713029247        1309.0204069000301        0.0000000000000000     
           4   2393.8975673729237        1996.5756703175589        175.77465713029247       -1309.0204069000301        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4142898827002106E-005           OLP:   -1.4142898827002079E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1873404461943134E-006           OLP:   -5.1873404461943719E-006
ABS integral  = 0.9039E-06  +/-  0.1836E-08  (   0.203 %)
Integral      = 0.5160E-06  +/-  0.2086E-08  (   0.404 %)
Virtual       = -.4340E-10  +/-  0.1061E-08  ( ******* %)
Virtual ratio = -.1939E+00  +/-  0.4124E-03  (   0.213 %)
ABS virtual   = 0.4840E-06  +/-  0.8416E-09  (   0.174 %)
Born          = 0.1903E-05  +/-  0.2717E-08  (   0.143 %)
V  2          = -.4340E-10  +/-  0.1061E-08  ( ******* %)
B  2          = 0.1903E-05  +/-  0.2717E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9039E-06  +/-  0.1836E-08  (   0.203 %)
accumulated results Integral      = 0.5160E-06  +/-  0.2086E-08  (   0.404 %)
accumulated results Virtual       = -.4340E-10  +/-  0.1061E-08  ( ******* %)
accumulated results Virtual ratio = -.1939E+00  +/-  0.4124E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4840E-06  +/-  0.8416E-09  (   0.174 %)
accumulated results Born          = 0.1903E-05  +/-  0.2717E-08  (   0.143 %)
accumulated results V  2          = -.4340E-10  +/-  0.1061E-08  ( ******* %)
accumulated results B  2          = 0.1903E-05  +/-  0.2717E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                     2                       3                         4
channel    1 :     1 T   204395    24013  0.3293E-06  0.1855E-06  0.1000E+01
channel    2 :     1 T   207851    24468  0.3371E-06  0.2017E-06  0.9266E+00
channel    3 :     2 T    73157     8219  0.1182E-06  0.6203E-07  0.9283E+00
channel    4 :     2 T    74473     8835  0.1193E-06  0.6667E-07  0.9481E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0386763231111514E-007  +/-   1.8355117515207074E-009
 Final result:   5.1597402640541085E-007  +/-   2.0863379199661248E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406279
   Stability unknown:                                          0
   Stable PS point:                                       406279
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406279
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406279
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.20793116    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.57781363    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.01529360    
 Time spent in Integrated_CT :    8.96191406    
 Time spent in Virtuals :    592.578918    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.27341652    
 Time spent in N1body_prefactor :   0.592275262    
 Time spent in Adding_alphas_pdf :    10.2517004    
 Time spent in Reweight_scale :    37.9973145    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.9370995    
 Time spent in Applying_cuts :    4.65359592    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    34.7127228    
 Time spent in Other_tasks :    20.2697754    
 Time spent in Total :    743.029785    
Time in seconds: 797



LOG file for integration channel /P0_uux_emep/all_G1_15, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28695
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          15
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,  47355
  with seed                   49
 Ranmar initialization seeds         124       26698
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.425786D+04 0.425786D+04  1.00
 muF1, muF1_reference: 0.425786D+04 0.425786D+04  1.00
 muF2, muF2_reference: 0.425786D+04 0.425786D+04  1.00
 QES,  QES_reference:  0.425786D+04 0.425786D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4942945604891162E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4124889749235590E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4152772852400813E-005           OLP:   -1.4152772852400823E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1700353550255305E-006           OLP:   -5.1700353550255466E-006
  FINITE:
           OLP:   -9.4412066247004833E-004
           BORN:    4.0787709900943292E-003
  MOMENTA (Exyzm): 
           1   2393.2193981904129        0.0000000000000000        0.0000000000000000        2393.2193981904129        0.0000000000000000     
           2   2393.2193981904129       -0.0000000000000000       -0.0000000000000000       -2393.2193981904129        0.0000000000000000     
           3   2393.2193981904129       -2001.4242235691711       -75.627065961280280        1309.9926381776008        0.0000000000000000     
           4   2393.2193981904129        2001.4242235691711        75.627065961280280       -1309.9926381776008        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4152772852400813E-005           OLP:   -1.4152772852400823E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1700353550255271E-006           OLP:   -5.1700353550255466E-006
ABS integral  = 0.9006E-06  +/-  0.1838E-08  (   0.204 %)
Integral      = 0.5176E-06  +/-  0.2085E-08  (   0.403 %)
Virtual       = 0.2339E-08  +/-  0.1058E-08  (  45.216 %)
Virtual ratio = -.1929E+00  +/-  0.4128E-03  (   0.214 %)
ABS virtual   = 0.4835E-06  +/-  0.8372E-09  (   0.173 %)
Born          = 0.1898E-05  +/-  0.2694E-08  (   0.142 %)
V  2          = 0.2339E-08  +/-  0.1058E-08  (  45.216 %)
B  2          = 0.1898E-05  +/-  0.2694E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9006E-06  +/-  0.1838E-08  (   0.204 %)
accumulated results Integral      = 0.5176E-06  +/-  0.2085E-08  (   0.403 %)
accumulated results Virtual       = 0.2339E-08  +/-  0.1058E-08  (  45.216 %)
accumulated results Virtual ratio = -.1929E+00  +/-  0.4128E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4835E-06  +/-  0.8372E-09  (   0.173 %)
accumulated results Born          = 0.1898E-05  +/-  0.2694E-08  (   0.142 %)
accumulated results V  2          = 0.2339E-08  +/-  0.1058E-08  (  45.216 %)
accumulated results B  2          = 0.1898E-05  +/-  0.2694E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   203776    24013  0.3283E-06  0.1862E-06  0.9539E+00
channel    2 :     1 T   208487    24468  0.3364E-06  0.2015E-06  0.9338E+00
channel    3 :     2 T    72966     8219  0.1158E-06  0.6111E-07  0.1000E+01
channel    4 :     2 T    74646     8835  0.1201E-06  0.6882E-07  0.9670E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0058999451864529E-007  +/-   1.8380951197107487E-009
 Final result:   5.1760832198919370E-007  +/-   2.0853573663881903E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406151
   Stability unknown:                                          0
   Stable PS point:                                       406151
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406151
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406151
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.22014439    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.76705933    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.01138496    
 Time spent in Integrated_CT :    8.92773438    
 Time spent in Virtuals :    591.874268    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.29312181    
 Time spent in N1body_prefactor :   0.592699826    
 Time spent in Adding_alphas_pdf :    10.2348347    
 Time spent in Reweight_scale :    38.1118622    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.7851906    
 Time spent in Applying_cuts :    4.66754770    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    34.7152748    
 Time spent in Other_tasks :    20.5225220    
 Time spent in Total :    742.723755    
Time in seconds: 797



LOG file for integration channel /P0_uux_emep/all_G1_16, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28699
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          16
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,  50512
  with seed                   49
 Ranmar initialization seeds         124       29855
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.439802D+04 0.439802D+04  1.00
 muF1, muF1_reference: 0.439802D+04 0.439802D+04  1.00
 muF2, muF2_reference: 0.439802D+04 0.439802D+04  1.00
 QES,  QES_reference:  0.439802D+04 0.439802D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4714671426004783E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4064412815761094E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4289414110601223E-005           OLP:   -1.4289414110601224E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9263261733439391E-006           OLP:   -4.9263261733429125E-006
  FINITE:
           OLP:   -9.6186914605391545E-004
           BORN:    4.1181504393238326E-003
  MOMENTA (Exyzm): 
           1   2414.2718172640630        0.0000000000000000        0.0000000000000000        2414.2718172640630        0.0000000000000000     
           2   2414.2718172640630       -0.0000000000000000       -0.0000000000000000       -2414.2718172640630        0.0000000000000000     
           3   2414.2718172640630       -1280.4854079742333       -1546.8906700433151        1340.2219154056265        0.0000000000000000     
           4   2414.2718172640630        1280.4854079742333        1546.8906700433151       -1340.2219154056265        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4289414110601223E-005           OLP:   -1.4289414110601224E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9263261733439357E-006           OLP:   -4.9263261733429125E-006
ABS integral  = 0.9003E-06  +/-  0.1793E-08  (   0.199 %)
Integral      = 0.5153E-06  +/-  0.2047E-08  (   0.397 %)
Virtual       = 0.6213E-09  +/-  0.1057E-08  ( 170.152 %)
Virtual ratio = -.1937E+00  +/-  0.4128E-03  (   0.213 %)
ABS virtual   = 0.4829E-06  +/-  0.8372E-09  (   0.173 %)
Born          = 0.1899E-05  +/-  0.2703E-08  (   0.142 %)
V  2          = 0.6213E-09  +/-  0.1057E-08  ( 170.152 %)
B  2          = 0.1899E-05  +/-  0.2703E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9003E-06  +/-  0.1793E-08  (   0.199 %)
accumulated results Integral      = 0.5153E-06  +/-  0.2047E-08  (   0.397 %)
accumulated results Virtual       = 0.6213E-09  +/-  0.1057E-08  ( 170.152 %)
accumulated results Virtual ratio = -.1937E+00  +/-  0.4128E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4829E-06  +/-  0.8372E-09  (   0.173 %)
accumulated results Born          = 0.1899E-05  +/-  0.2703E-08  (   0.142 %)
accumulated results V  2          = 0.6213E-09  +/-  0.1057E-08  ( 170.152 %)
accumulated results B  2          = 0.1899E-05  +/-  0.2703E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   203717    24013  0.3276E-06  0.1845E-06  0.1000E+01
channel    2 :     1 T   208179    24468  0.3340E-06  0.1994E-06  0.9447E+00
channel    3 :     2 T    73255     8219  0.1188E-06  0.6303E-07  0.9798E+00
channel    4 :     2 T    74722     8835  0.1199E-06  0.6842E-07  0.9871E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0033101975820900E-007  +/-   1.7933474697299631E-009
 Final result:   5.1530939681976839E-007  +/-   2.0468573755833382E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405817
   Stability unknown:                                          0
   Stable PS point:                                       405817
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405817
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405817
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.20811105    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.58816910    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.99470329    
 Time spent in Integrated_CT :    8.91986084    
 Time spent in Virtuals :    593.929077    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.22535610    
 Time spent in N1body_prefactor :   0.571080089    
 Time spent in Adding_alphas_pdf :    10.1734543    
 Time spent in Reweight_scale :    37.8969536    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.9454346    
 Time spent in Applying_cuts :    4.70384026    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    34.4698372    
 Time spent in Other_tasks :    20.3203735    
 Time spent in Total :    743.946289    
Time in seconds: 797



LOG file for integration channel /P0_uux_emep/all_G1_17, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28707
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          17
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,  53669
  with seed                   49
 Ranmar initialization seeds         124        2931
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.229642D+04 0.229642D+04  1.00
 muF1, muF1_reference: 0.229642D+04 0.229642D+04  1.00
 muF2, muF2_reference: 0.229642D+04 0.229642D+04  1.00
 QES,  QES_reference:  0.229642D+04 0.229642D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.9579646050895528E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4060386715898957E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4255600592437304E-005           OLP:   -1.4255600592437308E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9872940615348692E-006           OLP:   -4.9872940615293838E-006
  FINITE:
           OLP:   -9.5900569969885688E-004
           BORN:    4.1084055223101594E-003
  MOMENTA (Exyzm): 
           1   2415.6811658478373        0.0000000000000000        0.0000000000000000        2415.6811658478373        0.0000000000000000     
           2   2415.6811658478373       -0.0000000000000000       -0.0000000000000000       -2415.6811658478373        0.0000000000000000     
           3   2415.6811658478373       -1391.0174460107498       -1454.1871169114920        1336.3853444775355        0.0000000000000000     
           4   2415.6811658478373        1391.0174460107498        1454.1871169114920       -1336.3853444775355        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4255600592437304E-005           OLP:   -1.4255600592437308E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9872940615348692E-006           OLP:   -4.9872940615293838E-006
ABS integral  = 0.9031E-06  +/-  0.3743E-08  (   0.414 %)
Integral      = 0.5153E-06  +/-  0.3872E-08  (   0.751 %)
Virtual       = -.7784E-09  +/-  0.1055E-08  ( 135.471 %)
Virtual ratio = -.1940E+00  +/-  0.4126E-03  (   0.213 %)
ABS virtual   = 0.4821E-06  +/-  0.8349E-09  (   0.173 %)
Born          = 0.1897E-05  +/-  0.2699E-08  (   0.142 %)
V  2          = -.7784E-09  +/-  0.1055E-08  ( 135.471 %)
B  2          = 0.1897E-05  +/-  0.2699E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9031E-06  +/-  0.3743E-08  (   0.414 %)
accumulated results Integral      = 0.5153E-06  +/-  0.3872E-08  (   0.751 %)
accumulated results Virtual       = -.7784E-09  +/-  0.1055E-08  ( 135.471 %)
accumulated results Virtual ratio = -.1940E+00  +/-  0.4126E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4821E-06  +/-  0.8349E-09  (   0.173 %)
accumulated results Born          = 0.1897E-05  +/-  0.2699E-08  (   0.142 %)
accumulated results V  2          = -.7784E-09  +/-  0.1055E-08  ( 135.471 %)
accumulated results B  2          = 0.1897E-05  +/-  0.2699E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                     2                       3                         4
channel    1 :     1 T   204221    24013  0.3262E-06  0.1871E-06  0.1000E+01
channel    2 :     1 T   208020    24468  0.3382E-06  0.1976E-06  0.3393E+00
channel    3 :     2 T    73120     8219  0.1179E-06  0.6299E-07  0.9962E+00
channel    4 :     2 T    74515     8835  0.1208E-06  0.6756E-07  0.9247E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0312136805549229E-007  +/-   3.7432103249582179E-009
 Final result:   5.1531163729285204E-007  +/-   3.8722264415874649E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405703
   Stability unknown:                                          0
   Stable PS point:                                       405703
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405703
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405703
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.22453010    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.54303741    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.03019094    
 Time spent in Integrated_CT :    8.99267578    
 Time spent in Virtuals :    591.824890    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.23964596    
 Time spent in N1body_prefactor :   0.592350245    
 Time spent in Adding_alphas_pdf :    10.2188091    
 Time spent in Reweight_scale :    37.9686508    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.7375431    
 Time spent in Applying_cuts :    4.71219683    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.1301384    
 Time spent in Other_tasks :    20.1564941    
 Time spent in Total :    742.371094    
Time in seconds: 797



LOG file for integration channel /P0_uux_emep/all_G1_18, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28700
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          18
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,  56826
  with seed                   49
 Ranmar initialization seeds         124        6088
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.436806D+04 0.436806D+04  1.00
 muF1, muF1_reference: 0.436806D+04 0.436806D+04  1.00
 muF2, muF2_reference: 0.436806D+04 0.436806D+04  1.00
 QES,  QES_reference:  0.436806D+04 0.436806D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4762738078761035E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4104762489377515E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4048397549838435E-005           OLP:   -1.4048397549838444E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3510054491697613E-006           OLP:   -5.3510054491697393E-006
  FINITE:
           OLP:   -9.3595271353452258E-004
           BORN:    4.0486904567166217E-003
  MOMENTA (Exyzm): 
           1   2400.2013929348113        0.0000000000000000        0.0000000000000000        2400.2013929348113        0.0000000000000000     
           2   2400.2013929348113       -0.0000000000000000       -0.0000000000000000       -2400.2013929348113        0.0000000000000000     
           3   2400.2013929348113       -1969.4730244593447       -439.68038668136700        1299.5475713266108        0.0000000000000000     
           4   2400.2013929348113        1969.4730244593447        439.68038668136700       -1299.5475713266108        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4048397549838435E-005           OLP:   -1.4048397549838444E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3510054491697622E-006           OLP:   -5.3510054491697393E-006
ABS integral  = 0.9006E-06  +/-  0.1843E-08  (   0.205 %)
Integral      = 0.5145E-06  +/-  0.2091E-08  (   0.406 %)
Virtual       = -.6946E-09  +/-  0.1055E-08  ( 151.892 %)
Virtual ratio = -.1937E+00  +/-  0.4123E-03  (   0.213 %)
ABS virtual   = 0.4826E-06  +/-  0.8349E-09  (   0.173 %)
Born          = 0.1898E-05  +/-  0.2692E-08  (   0.142 %)
V  2          = -.6946E-09  +/-  0.1055E-08  ( 151.892 %)
B  2          = 0.1898E-05  +/-  0.2692E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9006E-06  +/-  0.1843E-08  (   0.205 %)
accumulated results Integral      = 0.5145E-06  +/-  0.2091E-08  (   0.406 %)
accumulated results Virtual       = -.6946E-09  +/-  0.1055E-08  ( 151.892 %)
accumulated results Virtual ratio = -.1937E+00  +/-  0.4123E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4826E-06  +/-  0.8349E-09  (   0.173 %)
accumulated results Born          = 0.1898E-05  +/-  0.2692E-08  (   0.142 %)
accumulated results V  2          = -.6946E-09  +/-  0.1055E-08  ( 151.892 %)
accumulated results B  2          = 0.1898E-05  +/-  0.2692E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   203832    24013  0.3276E-06  0.1860E-06  0.1000E+01
channel    2 :     1 T   208309    24468  0.3358E-06  0.1973E-06  0.8781E+00
channel    3 :     2 T    73565     8219  0.1184E-06  0.6366E-07  0.1000E+01
channel    4 :     2 T    74171     8835  0.1188E-06  0.6748E-07  0.9638E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0061139369443259E-007  +/-   1.8432525762294278E-009
 Final result:   5.1448631226216465E-007  +/-   2.0912976454661293E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406116
   Stability unknown:                                          0
   Stable PS point:                                       406116
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406116
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406116
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21250105    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.58584356    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.99435425    
 Time spent in Integrated_CT :    8.95709229    
 Time spent in Virtuals :    594.419373    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.24768829    
 Time spent in N1body_prefactor :   0.592731476    
 Time spent in Adding_alphas_pdf :    10.2327366    
 Time spent in Reweight_scale :    38.3371925    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8290405    
 Time spent in Applying_cuts :    4.72052479    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.0049744    
 Time spent in Other_tasks :    20.2984009    
 Time spent in Total :    745.432434    
Time in seconds: 797



LOG file for integration channel /P0_uux_emep/all_G1_19, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28710
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          19
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,  59983
  with seed                   49
 Ranmar initialization seeds         124        9245
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.400636D+04 0.400636D+04  1.00
 muF1, muF1_reference: 0.400636D+04 0.400636D+04  1.00
 muF2, muF2_reference: 0.400636D+04 0.400636D+04  1.00
 QES,  QES_reference:  0.400636D+04 0.400636D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5375733294926556E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4120568415553451E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4166345601655903E-005           OLP:   -1.4166345601655895E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1461679234870064E-006           OLP:   -5.1461679234870013E-006
  FINITE:
           OLP:   -9.4574044508774512E-004
           BORN:    4.0826826006666768E-003
  MOMENTA (Exyzm): 
           1   2394.7163884756210        0.0000000000000000        0.0000000000000000        2394.7163884756210        0.0000000000000000     
           2   2394.7163884756210       -0.0000000000000000       -0.0000000000000000       -2394.7163884756210        0.0000000000000000     
           3   2394.7163884756210       -1965.0955463679418       -387.28677397014542        1312.6595253859239        0.0000000000000000     
           4   2394.7163884756210        1965.0955463679418        387.28677397014542       -1312.6595253859239        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4166345601655903E-005           OLP:   -1.4166345601655895E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1461679234870064E-006           OLP:   -5.1461679234870013E-006
ABS integral  = 0.9042E-06  +/-  0.1947E-08  (   0.215 %)
Integral      = 0.5104E-06  +/-  0.2187E-08  (   0.429 %)
Virtual       = -.1622E-08  +/-  0.1060E-08  (  65.358 %)
Virtual ratio = -.1938E+00  +/-  0.4124E-03  (   0.213 %)
ABS virtual   = 0.4842E-06  +/-  0.8393E-09  (   0.173 %)
Born          = 0.1903E-05  +/-  0.2703E-08  (   0.142 %)
V  2          = -.1622E-08  +/-  0.1060E-08  (  65.358 %)
B  2          = 0.1903E-05  +/-  0.2703E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9042E-06  +/-  0.1947E-08  (   0.215 %)
accumulated results Integral      = 0.5104E-06  +/-  0.2187E-08  (   0.429 %)
accumulated results Virtual       = -.1622E-08  +/-  0.1060E-08  (  65.358 %)
accumulated results Virtual ratio = -.1938E+00  +/-  0.4124E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4842E-06  +/-  0.8393E-09  (   0.173 %)
accumulated results Born          = 0.1903E-05  +/-  0.2703E-08  (   0.142 %)
accumulated results V  2          = -.1622E-08  +/-  0.1060E-08  (  65.358 %)
accumulated results B  2          = 0.1903E-05  +/-  0.2703E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   203323    24013  0.3280E-06  0.1821E-06  0.9661E+00
channel    2 :     1 T   208055    24468  0.3366E-06  0.2009E-06  0.9381E+00
channel    3 :     2 T    73578     8219  0.1191E-06  0.6222E-07  0.8958E+00
channel    4 :     2 T    74915     8835  0.1206E-06  0.6512E-07  0.7939E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0421937167085965E-007  +/-   1.9466644539604106E-009
 Final result:   5.1037402734380912E-007  +/-   2.1873744027621230E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406728
   Stability unknown:                                          0
   Stable PS point:                                       406728
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406728
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406728
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.22848821    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.65244865    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.05051470    
 Time spent in Integrated_CT :    8.96221924    
 Time spent in Virtuals :    594.003479    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.29308605    
 Time spent in N1body_prefactor :   0.594292521    
 Time spent in Adding_alphas_pdf :    10.2384176    
 Time spent in Reweight_scale :    38.3295898    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.0565758    
 Time spent in Applying_cuts :    4.73057079    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    34.9265060    
 Time spent in Other_tasks :    20.5299072    
 Time spent in Total :    745.596130    
Time in seconds: 796



LOG file for integration channel /P0_uux_emep/all_G1_20, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28711
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          20
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,  63140
  with seed                   49
 Ranmar initialization seeds         124       12402
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.426186D+04 0.426186D+04  1.00
 muF1, muF1_reference: 0.426186D+04 0.426186D+04  1.00
 muF2, muF2_reference: 0.426186D+04 0.426186D+04  1.00
 QES,  QES_reference:  0.426186D+04 0.426186D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4936304248504906E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4060969961285875E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4003806152590010E-005           OLP:   -1.4003806152590013E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.4269314486472079E-006           OLP:   -5.4269314486472960E-006
  FINITE:
           OLP:   -9.3526201160657320E-004
           BORN:    4.0358393992311770E-003
  MOMENTA (Exyzm): 
           1   2415.4769381689966        0.0000000000000000        0.0000000000000000        2415.4769381689966        0.0000000000000000     
           2   2415.4769381689966       -0.0000000000000000       -0.0000000000000000       -2415.4769381689966        0.0000000000000000     
           3   2415.4769381689966       -2029.7487925891812       -142.48848150179191        1301.6703539868863        0.0000000000000000     
           4   2415.4769381689966        2029.7487925891812        142.48848150179191       -1301.6703539868863        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4003806152590010E-005           OLP:   -1.4003806152590013E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.4269314486472079E-006           OLP:   -5.4269314486472960E-006
ABS integral  = 0.9032E-06  +/-  0.2076E-08  (   0.230 %)
Integral      = 0.5148E-06  +/-  0.2300E-08  (   0.447 %)
Virtual       = -.1032E-08  +/-  0.1060E-08  ( 102.762 %)
Virtual ratio = -.1941E+00  +/-  0.4124E-03  (   0.213 %)
ABS virtual   = 0.4834E-06  +/-  0.8407E-09  (   0.174 %)
Born          = 0.1902E-05  +/-  0.2718E-08  (   0.143 %)
V  2          = -.1032E-08  +/-  0.1060E-08  ( 102.762 %)
B  2          = 0.1902E-05  +/-  0.2718E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9032E-06  +/-  0.2076E-08  (   0.230 %)
accumulated results Integral      = 0.5148E-06  +/-  0.2300E-08  (   0.447 %)
accumulated results Virtual       = -.1032E-08  +/-  0.1060E-08  ( 102.762 %)
accumulated results Virtual ratio = -.1941E+00  +/-  0.4124E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4834E-06  +/-  0.8407E-09  (   0.174 %)
accumulated results Born          = 0.1902E-05  +/-  0.2718E-08  (   0.143 %)
accumulated results V  2          = -.1032E-08  +/-  0.1060E-08  ( 102.762 %)
accumulated results B  2          = 0.1902E-05  +/-  0.2718E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   204513    24013  0.3285E-06  0.1838E-06  0.7994E+00
channel    2 :     1 T   207326    24468  0.3362E-06  0.1996E-06  0.8915E+00
channel    3 :     2 T    73111     8219  0.1174E-06  0.6228E-07  0.9659E+00
channel    4 :     2 T    74918     8835  0.1211E-06  0.6915E-07  0.9539E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0321137892893126E-007  +/-   2.0756177202090998E-009
 Final result:   5.1476312548667844E-007  +/-   2.3004353016889354E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406318
   Stability unknown:                                          0
   Stable PS point:                                       406318
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406318
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406318
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.25130153    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.80891705    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.11802387    
 Time spent in Integrated_CT :    9.14392090    
 Time spent in Virtuals :    596.804199    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.39233541    
 Time spent in N1body_prefactor :   0.600422502    
 Time spent in Adding_alphas_pdf :    10.7032452    
 Time spent in Reweight_scale :    39.5626907    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.3015766    
 Time spent in Applying_cuts :    4.78363276    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.9284248    
 Time spent in Other_tasks :    20.7580566    
 Time spent in Total :    752.156677    
Time in seconds: 796



LOG file for integration channel /P0_uux_emep/all_G1_21, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28712
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          21
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,  66297
  with seed                   49
 Ranmar initialization seeds         124       15559
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.434710D+04 0.434710D+04  1.00
 muF1, muF1_reference: 0.434710D+04 0.434710D+04  1.00
 muF2, muF2_reference: 0.434710D+04 0.434710D+04  1.00
 QES,  QES_reference:  0.434710D+04 0.434710D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4796595652343478E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4073155594836640E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4154133001738129E-005           OLP:   -1.4154133001738128E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1675276377651616E-006           OLP:   -5.1675276377650769E-006
  FINITE:
           OLP:   -9.4841123100283819E-004
           BORN:    4.0791629795452373E-003
  MOMENTA (Exyzm): 
           1   2411.2147606933027        0.0000000000000000        0.0000000000000000        2411.2147606933027        0.0000000000000000     
           2   2411.2147606933027       -0.0000000000000000       -0.0000000000000000       -2411.2147606933027        0.0000000000000000     
           3   2411.2147606933027       -1867.9570457164089       -763.01722809560022        1320.0370476516912        0.0000000000000000     
           4   2411.2147606933027        1867.9570457164089        763.01722809560022       -1320.0370476516912        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4154133001738129E-005           OLP:   -1.4154133001738128E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1675276377651616E-006           OLP:   -5.1675276377650769E-006
ABS integral  = 0.9019E-06  +/-  0.1827E-08  (   0.203 %)
Integral      = 0.5134E-06  +/-  0.2078E-08  (   0.405 %)
Virtual       = 0.2785E-09  +/-  0.1060E-08  ( 380.556 %)
Virtual ratio = -.1939E+00  +/-  0.4126E-03  (   0.213 %)
ABS virtual   = 0.4834E-06  +/-  0.8402E-09  (   0.174 %)
Born          = 0.1900E-05  +/-  0.2704E-08  (   0.142 %)
V  2          = 0.2785E-09  +/-  0.1060E-08  ( 380.556 %)
B  2          = 0.1900E-05  +/-  0.2704E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9019E-06  +/-  0.1827E-08  (   0.203 %)
accumulated results Integral      = 0.5134E-06  +/-  0.2078E-08  (   0.405 %)
accumulated results Virtual       = 0.2785E-09  +/-  0.1060E-08  ( 380.556 %)
accumulated results Virtual ratio = -.1939E+00  +/-  0.4126E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4834E-06  +/-  0.8402E-09  (   0.174 %)
accumulated results Born          = 0.1900E-05  +/-  0.2704E-08  (   0.142 %)
accumulated results V  2          = 0.2785E-09  +/-  0.1060E-08  ( 380.556 %)
accumulated results B  2          = 0.1900E-05  +/-  0.2704E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                   2                        3                         4
channel    1 :     1 T   203931    24013  0.3291E-06  0.1858E-06  0.9589E+00
channel    2 :     1 T   208164    24468  0.3344E-06  0.1991E-06  0.9567E+00
channel    3 :     2 T    73080     8219  0.1180E-06  0.6139E-07  0.9862E+00
channel    4 :     2 T    74693     8835  0.1204E-06  0.6710E-07  0.9688E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0192713555783320E-007  +/-   1.8267343902862470E-009
 Final result:   5.1335306234066142E-007  +/-   2.0782735361994179E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406046
   Stability unknown:                                          0
   Stable PS point:                                       406046
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406046
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406046
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.24003267    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.67880440    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.08360910    
 Time spent in Integrated_CT :    9.01409912    
 Time spent in Virtuals :    601.731140    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.43711519    
 Time spent in N1body_prefactor :   0.596122503    
 Time spent in Adding_alphas_pdf :    10.3982773    
 Time spent in Reweight_scale :    38.8878746    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.0565624    
 Time spent in Applying_cuts :    4.78716469    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.1998177    
 Time spent in Other_tasks :    20.8079834    
 Time spent in Total :    754.918640    
Time in seconds: 795



LOG file for integration channel /P0_uux_emep/all_G1_22, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28694
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          22
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,  69454
  with seed                   49
 Ranmar initialization seeds         124       18716
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.290678D+04 0.290678D+04  1.00
 muF1, muF1_reference: 0.290678D+04 0.290678D+04  1.00
 muF2, muF2_reference: 0.290678D+04 0.290678D+04  1.00
 QES,  QES_reference:  0.290678D+04 0.290678D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.7742650309115119E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4171157150805009E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4006328501243615E-005           OLP:   -1.4006328501243622E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.4229016672757385E-006           OLP:   -5.4229016672756317E-006
  FINITE:
           OLP:   -9.2675234430991400E-004
           BORN:    4.0365663297502012E-003
  MOMENTA (Exyzm): 
           1   2377.2613852209574        0.0000000000000000        0.0000000000000000        2377.2613852209574        0.0000000000000000     
           2   2377.2613852209574       -0.0000000000000000       -0.0000000000000000       -2377.2613852209574        0.0000000000000000     
           3   2377.2613852209574       -1894.7254167046042       -647.60588926154423        1281.4030986188516        0.0000000000000000     
           4   2377.2613852209574        1894.7254167046042        647.60588926154423       -1281.4030986188516        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4006328501243615E-005           OLP:   -1.4006328501243622E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.4229016672757427E-006           OLP:   -5.4229016672756317E-006
ABS integral  = 0.9041E-06  +/-  0.2073E-08  (   0.229 %)
Integral      = 0.5187E-06  +/-  0.2298E-08  (   0.443 %)
Virtual       = 0.1298E-08  +/-  0.1064E-08  (  81.950 %)
Virtual ratio = -.1930E+00  +/-  0.4132E-03  (   0.214 %)
ABS virtual   = 0.4842E-06  +/-  0.8441E-09  (   0.174 %)
Born          = 0.1901E-05  +/-  0.2716E-08  (   0.143 %)
V  2          = 0.1298E-08  +/-  0.1064E-08  (  81.950 %)
B  2          = 0.1901E-05  +/-  0.2716E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9041E-06  +/-  0.2073E-08  (   0.229 %)
accumulated results Integral      = 0.5187E-06  +/-  0.2298E-08  (   0.443 %)
accumulated results Virtual       = 0.1298E-08  +/-  0.1064E-08  (  81.950 %)
accumulated results Virtual ratio = -.1930E+00  +/-  0.4132E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4842E-06  +/-  0.8441E-09  (   0.174 %)
accumulated results Born          = 0.1901E-05  +/-  0.2716E-08  (   0.143 %)
accumulated results V  2          = 0.1298E-08  +/-  0.1064E-08  (  81.950 %)
accumulated results B  2          = 0.1901E-05  +/-  0.2716E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   204320    24013  0.3284E-06  0.1882E-06  0.9998E+00
channel    2 :     1 T   207570    24468  0.3366E-06  0.2013E-06  0.9548E+00
channel    3 :     2 T    73141     8219  0.1172E-06  0.6216E-07  0.9649E+00
channel    4 :     2 T    74841     8835  0.1219E-06  0.6701E-07  0.5944E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0406485458291520E-007  +/-   2.0734713924248821E-009
 Final result:   5.1868233335122790E-007  +/-   2.2975243188812919E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405665
   Stability unknown:                                          0
   Stable PS point:                                       405665
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405665
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405665
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.15291047    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.64661503    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.12920952    
 Time spent in Integrated_CT :    8.62292480    
 Time spent in Virtuals :    548.226318    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.22971439    
 Time spent in N1body_prefactor :   0.625733256    
 Time spent in Adding_alphas_pdf :    10.2637367    
 Time spent in Reweight_scale :    38.0732422    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.1663837    
 Time spent in Applying_cuts :    4.60270500    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    32.1839600    
 Time spent in Other_tasks :    19.9551392    
 Time spent in Total :    694.878601    
Time in seconds: 699



LOG file for integration channel /P0_uux_emep/all_G1_23, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6173
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          23
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,  72611
  with seed                   49
 Ranmar initialization seeds         124       21873
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.401633D+04 0.401633D+04  1.00
 muF1, muF1_reference: 0.401633D+04 0.401633D+04  1.00
 muF2, muF2_reference: 0.401633D+04 0.401633D+04  1.00
 QES,  QES_reference:  0.401633D+04 0.401633D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5357973823301505E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4118696961874619E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4043930092153093E-005           OLP:   -1.4043930092153090E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3586890250538420E-006           OLP:   -5.3586890250538996E-006
  FINITE:
           OLP:   -9.3442439687827341E-004
           BORN:    4.0474029537660361E-003
  MOMENTA (Exyzm): 
           1   2395.3650419604714        0.0000000000000000        0.0000000000000000        2395.3650419604714        0.0000000000000000     
           2   2395.3650419604714       -0.0000000000000000       -0.0000000000000000       -2395.3650419604714        0.0000000000000000     
           3   2395.3650419604714       -2012.7655738643989       -78.187389894404120        1296.3159958027625        0.0000000000000000     
           4   2395.3650419604714        2012.7655738643989        78.187389894404120       -1296.3159958027625        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4043930092153093E-005           OLP:   -1.4043930092153090E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3586890250538420E-006           OLP:   -5.3586890250538996E-006
ABS integral  = 0.8996E-06  +/-  0.1992E-08  (   0.221 %)
Integral      = 0.5123E-06  +/-  0.2224E-08  (   0.434 %)
Virtual       = -.1103E-08  +/-  0.1055E-08  (  95.605 %)
Virtual ratio = -.1939E+00  +/-  0.4121E-03  (   0.212 %)
ABS virtual   = 0.4822E-06  +/-  0.8349E-09  (   0.173 %)
Born          = 0.1897E-05  +/-  0.2698E-08  (   0.142 %)
V  2          = -.1103E-08  +/-  0.1055E-08  (  95.605 %)
B  2          = 0.1897E-05  +/-  0.2698E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8996E-06  +/-  0.1992E-08  (   0.221 %)
accumulated results Integral      = 0.5123E-06  +/-  0.2224E-08  (   0.434 %)
accumulated results Virtual       = -.1103E-08  +/-  0.1055E-08  (  95.605 %)
accumulated results Virtual ratio = -.1939E+00  +/-  0.4121E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4822E-06  +/-  0.8349E-09  (   0.173 %)
accumulated results Born          = 0.1897E-05  +/-  0.2698E-08  (   0.142 %)
accumulated results V  2          = -.1103E-08  +/-  0.1055E-08  (  95.605 %)
accumulated results B  2          = 0.1897E-05  +/-  0.2698E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   203782    24013  0.3279E-06  0.1865E-06  0.1000E+01
channel    2 :     1 T   208316    24468  0.3338E-06  0.1951E-06  0.7815E+00
channel    3 :     2 T    73456     8219  0.1182E-06  0.6341E-07  0.9814E+00
channel    4 :     2 T    74319     8835  0.1197E-06  0.6733E-07  0.9508E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9958538893854985E-007  +/-   1.9919384780694770E-009
 Final result:   5.1230775249909861E-007  +/-   2.2236144294008483E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405816
   Stability unknown:                                          0
   Stable PS point:                                       405816
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405816
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405816
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.76648045    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.37434578    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.65534973    
 Time spent in Integrated_CT :    11.4739990    
 Time spent in Virtuals :    711.627319    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.8303127    
 Time spent in N1body_prefactor :   0.926615000    
 Time spent in Adding_alphas_pdf :    12.7130823    
 Time spent in Reweight_scale :    54.7656479    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.3895397    
 Time spent in Applying_cuts :    7.23236036    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    53.0006752    
 Time spent in Other_tasks :    30.7564087    
 Time spent in Total :    929.512146    
Time in seconds: 944



LOG file for integration channel /P0_uux_emep/all_G1_24, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6172
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          24
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,  75768
  with seed                   49
 Ranmar initialization seeds         124       25030
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.435762D+04 0.435762D+04  1.00
 muF1, muF1_reference: 0.435762D+04 0.435762D+04  1.00
 muF2, muF2_reference: 0.435762D+04 0.435762D+04  1.00
 QES,  QES_reference:  0.435762D+04 0.435762D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4779577166974184E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4047602796945791E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4315919304745598E-005           OLP:   -1.4315919304745588E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.8781621697085698E-006           OLP:   -4.8781621697137790E-006
  FINITE:
           OLP:   -9.6574728617025295E-004
           BORN:    4.1257891273809620E-003
  MOMENTA (Exyzm): 
           1   2420.1627330722067        0.0000000000000000        0.0000000000000000        2420.1627330722067        0.0000000000000000     
           2   2420.1627330722067       -0.0000000000000000       -0.0000000000000000       -2420.1627330722067        0.0000000000000000     
           3   2420.1627330722067       -1357.6728920138464       -1482.9650260631031        1347.1179251706037        0.0000000000000000     
           4   2420.1627330722067        1357.6728920138464        1482.9650260631031       -1347.1179251706037        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4315919304745598E-005           OLP:   -1.4315919304745588E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.8781621697085706E-006           OLP:   -4.8781621697137790E-006
ABS integral  = 0.9009E-06  +/-  0.1864E-08  (   0.207 %)
Integral      = 0.5151E-06  +/-  0.2110E-08  (   0.410 %)
Virtual       = -.3373E-09  +/-  0.1055E-08  ( 312.728 %)
Virtual ratio = -.1935E+00  +/-  0.4126E-03  (   0.213 %)
ABS virtual   = 0.4816E-06  +/-  0.8355E-09  (   0.173 %)
Born          = 0.1895E-05  +/-  0.2700E-08  (   0.142 %)
V  2          = -.3373E-09  +/-  0.1055E-08  ( 312.728 %)
B  2          = 0.1895E-05  +/-  0.2700E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9009E-06  +/-  0.1864E-08  (   0.207 %)
accumulated results Integral      = 0.5151E-06  +/-  0.2110E-08  (   0.410 %)
accumulated results Virtual       = -.3373E-09  +/-  0.1055E-08  ( 312.728 %)
accumulated results Virtual ratio = -.1935E+00  +/-  0.4126E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4816E-06  +/-  0.8355E-09  (   0.173 %)
accumulated results Born          = 0.1895E-05  +/-  0.2700E-08  (   0.142 %)
accumulated results V  2          = -.3373E-09  +/-  0.1055E-08  ( 312.728 %)
accumulated results B  2          = 0.1895E-05  +/-  0.2700E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   203331    24013  0.3268E-06  0.1849E-06  0.9444E+00
channel    2 :     1 T   208704    24468  0.3380E-06  0.2018E-06  0.9302E+00
channel    3 :     2 T    73418     8219  0.1178E-06  0.6140E-07  0.9675E+00
channel    4 :     2 T    74422     8835  0.1183E-06  0.6696E-07  0.9557E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0093765572568916E-007  +/-   1.8641229706696157E-009
 Final result:   5.1506944134353491E-007  +/-   2.1097103474837346E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405473
   Stability unknown:                                          0
   Stable PS point:                                       405473
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405473
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405473
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.87065458    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.35405445    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.63635731    
 Time spent in Integrated_CT :    11.3530884    
 Time spent in Virtuals :    712.597107    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.8993645    
 Time spent in N1body_prefactor :   0.915632546    
 Time spent in Adding_alphas_pdf :    13.1027679    
 Time spent in Reweight_scale :    55.1419792    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.0315495    
 Time spent in Applying_cuts :    7.21434498    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    53.6929436    
 Time spent in Other_tasks :    30.5204468    
 Time spent in Total :    931.330322    
Time in seconds: 949



LOG file for integration channel /P0_uux_emep/all_G1_25, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6191
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          25
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,  78925
  with seed                   49
 Ranmar initialization seeds         124       28187
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.438099D+04 0.438099D+04  1.00
 muF1, muF1_reference: 0.438099D+04 0.438099D+04  1.00
 muF2, muF2_reference: 0.438099D+04 0.438099D+04  1.00
 QES,  QES_reference:  0.438099D+04 0.438099D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4741954783033276E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4150004506009684E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4088229231862450E-005           OLP:   -1.4088229231862446E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2825395200274066E-006           OLP:   -5.2825395200275599E-006
  FINITE:
           OLP:   -9.3607113860921863E-004
           BORN:    4.0601697838294464E-003
  MOMENTA (Exyzm): 
           1   2384.5412797335630        0.0000000000000000        0.0000000000000000        2384.5412797335630        0.0000000000000000     
           2   2384.5412797335630       -0.0000000000000000       -0.0000000000000000       -2384.5412797335630        0.0000000000000000     
           3   2384.5412797335630       -1011.9500463443495       -1726.5964937375591        1296.4793736385532        0.0000000000000000     
           4   2384.5412797335630        1011.9500463443495        1726.5964937375591       -1296.4793736385532        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4088229231862450E-005           OLP:   -1.4088229231862446E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2825395200274066E-006           OLP:   -5.2825395200275599E-006
ABS integral  = 0.9027E-06  +/-  0.1878E-08  (   0.208 %)
Integral      = 0.5175E-06  +/-  0.2122E-08  (   0.410 %)
Virtual       = 0.1334E-08  +/-  0.1063E-08  (  79.682 %)
Virtual ratio = -.1936E+00  +/-  0.4123E-03  (   0.213 %)
ABS virtual   = 0.4848E-06  +/-  0.8426E-09  (   0.174 %)
Born          = 0.1905E-05  +/-  0.2718E-08  (   0.143 %)
V  2          = 0.1334E-08  +/-  0.1063E-08  (  79.682 %)
B  2          = 0.1905E-05  +/-  0.2718E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9027E-06  +/-  0.1878E-08  (   0.208 %)
accumulated results Integral      = 0.5175E-06  +/-  0.2122E-08  (   0.410 %)
accumulated results Virtual       = 0.1334E-08  +/-  0.1063E-08  (  79.682 %)
accumulated results Virtual ratio = -.1936E+00  +/-  0.4123E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4848E-06  +/-  0.8426E-09  (   0.174 %)
accumulated results Born          = 0.1905E-05  +/-  0.2718E-08  (   0.143 %)
accumulated results V  2          = 0.1334E-08  +/-  0.1063E-08  (  79.682 %)
accumulated results B  2          = 0.1905E-05  +/-  0.2718E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                     2                       3                         4
channel    1 :     1 T   203844    24013  0.3287E-06  0.1849E-06  0.9272E+00
channel    2 :     1 T   207890    24468  0.3354E-06  0.2021E-06  0.9363E+00
channel    3 :     2 T    73365     8219  0.1187E-06  0.6284E-07  0.1000E+01
channel    4 :     2 T    74772     8835  0.1200E-06  0.6764E-07  0.9631E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0273767761160028E-007  +/-   1.8780525217199858E-009
 Final result:   5.1752618513539539E-007  +/-   2.1223271241962166E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406104
   Stability unknown:                                          0
   Stable PS point:                                       406104
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406104
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406104
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.73309422    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.34337378    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.62043333    
 Time spent in Integrated_CT :    11.4275513    
 Time spent in Virtuals :    710.495178    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.8141508    
 Time spent in N1body_prefactor :   0.937631726    
 Time spent in Adding_alphas_pdf :    12.8690681    
 Time spent in Reweight_scale :    54.5125313    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.3244991    
 Time spent in Applying_cuts :    7.30455971    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    53.3220787    
 Time spent in Other_tasks :    30.8889160    
 Time spent in Total :    928.593079    
Time in seconds: 939



LOG file for integration channel /P0_uux_emep/all_G1_26, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6196
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          26
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,  82082
  with seed                   49
 Ranmar initialization seeds         124        1263
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.439661D+04 0.439661D+04  1.00
 muF1, muF1_reference: 0.439661D+04 0.439661D+04  1.00
 muF2, muF2_reference: 0.439661D+04 0.439661D+04  1.00
 QES,  QES_reference:  0.439661D+04 0.439661D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4716934524091547E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4087631539624124E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4079289073144171E-005           OLP:   -1.4079289073144144E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2978407744849156E-006           OLP:   -5.2978407744849791E-006
  FINITE:
           OLP:   -9.4021680769247455E-004
           BORN:    4.0575932668170389E-003
  MOMENTA (Exyzm): 
           1   2406.1631670840029        0.0000000000000000        0.0000000000000000        2406.1631670840029        0.0000000000000000     
           2   2406.1631670840029       -0.0000000000000000       -0.0000000000000000       -2406.1631670840029        0.0000000000000000     
           3   2406.1631670840029       -1970.9313254887297       -443.56927535763049        1307.0184370534585        0.0000000000000000     
           4   2406.1631670840029        1970.9313254887297        443.56927535763049       -1307.0184370534585        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4079289073144171E-005           OLP:   -1.4079289073144144E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2978407744849156E-006           OLP:   -5.2978407744849791E-006
ABS integral  = 0.9033E-06  +/-  0.1916E-08  (   0.212 %)
Integral      = 0.5158E-06  +/-  0.2157E-08  (   0.418 %)
Virtual       = 0.2413E-08  +/-  0.1061E-08  (  43.965 %)
Virtual ratio = -.1931E+00  +/-  0.4129E-03  (   0.214 %)
ABS virtual   = 0.4832E-06  +/-  0.8415E-09  (   0.174 %)
Born          = 0.1897E-05  +/-  0.2706E-08  (   0.143 %)
V  2          = 0.2413E-08  +/-  0.1061E-08  (  43.965 %)
B  2          = 0.1897E-05  +/-  0.2706E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9033E-06  +/-  0.1916E-08  (   0.212 %)
accumulated results Integral      = 0.5158E-06  +/-  0.2157E-08  (   0.418 %)
accumulated results Virtual       = 0.2413E-08  +/-  0.1061E-08  (  43.965 %)
accumulated results Virtual ratio = -.1931E+00  +/-  0.4129E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4832E-06  +/-  0.8415E-09  (   0.174 %)
accumulated results Born          = 0.1897E-05  +/-  0.2706E-08  (   0.143 %)
accumulated results V  2          = 0.2413E-08  +/-  0.1061E-08  (  43.965 %)
accumulated results B  2          = 0.1897E-05  +/-  0.2706E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   204578    24013  0.3303E-06  0.1863E-06  0.9595E+00
channel    2 :     1 T   207837    24468  0.3344E-06  0.2001E-06  0.9179E+00
channel    3 :     2 T    73200     8219  0.1178E-06  0.6281E-07  0.9175E+00
channel    4 :     2 T    74257     8835  0.1208E-06  0.6653E-07  0.8952E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0327605176949835E-007  +/-   1.9160083238308184E-009
 Final result:   5.1578381728412074E-007  +/-   2.1571350114287231E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405494
   Stability unknown:                                          0
   Stable PS point:                                       405494
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405494
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405494
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.78479052    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.35233116    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.66439247    
 Time spent in Integrated_CT :    11.5097046    
 Time spent in Virtuals :    712.384155    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.9057369    
 Time spent in N1body_prefactor :   0.920575738    
 Time spent in Adding_alphas_pdf :    12.9182072    
 Time spent in Reweight_scale :    54.8235359    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.2787094    
 Time spent in Applying_cuts :    7.26197433    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    53.1869164    
 Time spent in Other_tasks :    30.6602783    
 Time spent in Total :    930.651306    
Time in seconds: 944



LOG file for integration channel /P0_uux_emep/all_G1_27, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6197
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          27
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,  85239
  with seed                   49
 Ranmar initialization seeds         124        4420
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.444354D+04 0.444354D+04  1.00
 muF1, muF1_reference: 0.444354D+04 0.444354D+04  1.00
 muF2, muF2_reference: 0.444354D+04 0.444354D+04  1.00
 QES,  QES_reference:  0.444354D+04 0.444354D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4642391600097238E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4098112033107649E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4104352238393627E-005           OLP:   -1.4104352238393629E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2544855239921766E-006           OLP:   -5.2544855239921478E-006
  FINITE:
           OLP:   -9.4172886661023612E-004
           BORN:    4.0648163680711566E-003
  MOMENTA (Exyzm): 
           1   2402.5137330109974        0.0000000000000000        0.0000000000000000        2402.5137330109974        0.0000000000000000     
           2   2402.5137330109974       -0.0000000000000000       -0.0000000000000000       -2402.5137330109974        0.0000000000000000     
           3   2402.5137330109974       -1953.7409301819823       -492.83497121000778        1308.4656304964647        0.0000000000000000     
           4   2402.5137330109974        1953.7409301819823        492.83497121000778       -1308.4656304964647        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4104352238393627E-005           OLP:   -1.4104352238393629E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2544855239921775E-006           OLP:   -5.2544855239921478E-006
ABS integral  = 0.9004E-06  +/-  0.1907E-08  (   0.212 %)
Integral      = 0.5135E-06  +/-  0.2148E-08  (   0.418 %)
Virtual       = -.8213E-09  +/-  0.1058E-08  ( 128.802 %)
Virtual ratio = -.1944E+00  +/-  0.4123E-03  (   0.212 %)
ABS virtual   = 0.4826E-06  +/-  0.8385E-09  (   0.174 %)
Born          = 0.1899E-05  +/-  0.2708E-08  (   0.143 %)
V  2          = -.8213E-09  +/-  0.1058E-08  ( 128.802 %)
B  2          = 0.1899E-05  +/-  0.2708E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9004E-06  +/-  0.1907E-08  (   0.212 %)
accumulated results Integral      = 0.5135E-06  +/-  0.2148E-08  (   0.418 %)
accumulated results Virtual       = -.8213E-09  +/-  0.1058E-08  ( 128.802 %)
accumulated results Virtual ratio = -.1944E+00  +/-  0.4123E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4826E-06  +/-  0.8385E-09  (   0.174 %)
accumulated results Born          = 0.1899E-05  +/-  0.2708E-08  (   0.143 %)
accumulated results V  2          = -.8213E-09  +/-  0.1058E-08  ( 128.802 %)
accumulated results B  2          = 0.1899E-05  +/-  0.2708E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                     2                       3                         4
channel    1 :     1 T   204297    24013  0.3260E-06  0.1841E-06  0.1000E+01
channel    2 :     1 T   207771    24468  0.3363E-06  0.1989E-06  0.8500E+00
channel    3 :     2 T    73519     8219  0.1178E-06  0.6373E-07  0.9752E+00
channel    4 :     2 T    74284     8835  0.1203E-06  0.6683E-07  0.9626E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0042228251045893E-007  +/-   1.9073896814357686E-009
 Final result:   5.1354976565998397E-007  +/-   2.1482999136269780E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405700
   Stability unknown:                                          0
   Stable PS point:                                       405700
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405700
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405700
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.79500020    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.35171843    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.64873219    
 Time spent in Integrated_CT :    11.3862915    
 Time spent in Virtuals :    713.461243    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.8866329    
 Time spent in N1body_prefactor :   0.926936090    
 Time spent in Adding_alphas_pdf :    12.8960114    
 Time spent in Reweight_scale :    54.3815613    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    19.9999008    
 Time spent in Applying_cuts :    7.21509647    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    53.9285660    
 Time spent in Other_tasks :    30.6475830    
 Time spent in Total :    931.525269    
Time in seconds: 946



LOG file for integration channel /P0_uux_emep/all_G1_28, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6200
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          28
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,  88396
  with seed                   49
 Ranmar initialization seeds         124        7577
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.420935D+04 0.420935D+04  1.00
 muF1, muF1_reference: 0.420935D+04 0.420935D+04  1.00
 muF2, muF2_reference: 0.420935D+04 0.420935D+04  1.00
 QES,  QES_reference:  0.420935D+04 0.420935D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5024030452351745E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4105422993498815E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4042687407780731E-005           OLP:   -1.4042687407780741E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3607857830997239E-006           OLP:   -5.3607857830994596E-006
  FINITE:
           OLP:   -9.3536535478909596E-004
           BORN:    4.0470448172354283E-003
  MOMENTA (Exyzm): 
           1   2399.9718831616292        0.0000000000000000        0.0000000000000000        2399.9718831616292        0.0000000000000000     
           2   2399.9718831616292       -0.0000000000000000       -0.0000000000000000       -2399.9718831616292        0.0000000000000000     
           3   2399.9718831616292       -1065.9272865548298       -1713.8249960761912        1298.6408058307256        0.0000000000000000     
           4   2399.9718831616292        1065.9272865548298        1713.8249960761912       -1298.6408058307256        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4042687407780731E-005           OLP:   -1.4042687407780741E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3607857830997282E-006           OLP:   -5.3607857830994596E-006
ABS integral  = 0.9039E-06  +/-  0.3848E-08  (   0.426 %)
Integral      = 0.5181E-06  +/-  0.3974E-08  (   0.767 %)
Virtual       = 0.3879E-10  +/-  0.1058E-08  ( ******* %)
Virtual ratio = -.1932E+00  +/-  0.4126E-03  (   0.214 %)
ABS virtual   = 0.4831E-06  +/-  0.8383E-09  (   0.174 %)
Born          = 0.1899E-05  +/-  0.2706E-08  (   0.142 %)
V  2          = 0.3879E-10  +/-  0.1058E-08  ( ******* %)
B  2          = 0.1899E-05  +/-  0.2706E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9039E-06  +/-  0.3848E-08  (   0.426 %)
accumulated results Integral      = 0.5181E-06  +/-  0.3974E-08  (   0.767 %)
accumulated results Virtual       = 0.3879E-10  +/-  0.1058E-08  ( ******* %)
accumulated results Virtual ratio = -.1932E+00  +/-  0.4126E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4831E-06  +/-  0.8383E-09  (   0.174 %)
accumulated results Born          = 0.1899E-05  +/-  0.2706E-08  (   0.142 %)
accumulated results V  2          = 0.3879E-10  +/-  0.1058E-08  ( ******* %)
accumulated results B  2          = 0.1899E-05  +/-  0.2706E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   203356    24013  0.3309E-06  0.1867E-06  0.3340E+00
channel    2 :     1 T   208518    24468  0.3351E-06  0.2009E-06  0.9429E+00
channel    3 :     2 T    73102     8219  0.1176E-06  0.6312E-07  0.1000E+01
channel    4 :     2 T    74898     8835  0.1203E-06  0.6737E-07  0.9023E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0388082910444589E-007  +/-   3.8484477032416980E-009
 Final result:   5.1805336077659779E-007  +/-   3.9737204908793477E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405601
   Stability unknown:                                          0
   Stable PS point:                                       405601
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405601
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405601
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.76799905    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.33400536    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.61797810    
 Time spent in Integrated_CT :    11.4262085    
 Time spent in Virtuals :    715.299316    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.8060684    
 Time spent in N1body_prefactor :   0.936637819    
 Time spent in Adding_alphas_pdf :    13.0615730    
 Time spent in Reweight_scale :    54.7501068    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.1413517    
 Time spent in Applying_cuts :    7.27477312    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    53.0435867    
 Time spent in Other_tasks :    30.9954224    
 Time spent in Total :    933.455078    
Time in seconds: 950



LOG file for integration channel /P0_uux_emep/all_G1_29, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6243
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          29
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,  91553
  with seed                   49
 Ranmar initialization seeds         124       10734
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.411729D+04 0.411729D+04  1.00
 muF1, muF1_reference: 0.411729D+04 0.411729D+04  1.00
 muF2, muF2_reference: 0.411729D+04 0.411729D+04  1.00
 QES,  QES_reference:  0.411729D+04 0.411729D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5180982629541093E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4106909646502600E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4103150031860972E-005           OLP:   -1.4103150031860960E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2565922417507972E-006           OLP:   -5.2565922417504008E-006
  FINITE:
           OLP:   -9.4091134750029894E-004
           BORN:    4.0644698970876518E-003
  MOMENTA (Exyzm): 
           1   2399.4554018322310        0.0000000000000000        0.0000000000000000        2399.4554018322310        0.0000000000000000     
           2   2399.4554018322310       -0.0000000000000000       -0.0000000000000000       -2399.4554018322310        0.0000000000000000     
           3   2399.4554018322310       -1707.4277073945671       -1065.2621383286239        1306.6343888198924        0.0000000000000000     
           4   2399.4554018322310        1707.4277073945671        1065.2621383286239       -1306.6343888198924        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4103150031860972E-005           OLP:   -1.4103150031860960E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2565922417507964E-006           OLP:   -5.2565922417504008E-006
ABS integral  = 0.9024E-06  +/-  0.1897E-08  (   0.210 %)
Integral      = 0.5138E-06  +/-  0.2141E-08  (   0.417 %)
Virtual       = -.6599E-09  +/-  0.1063E-08  ( 161.164 %)
Virtual ratio = -.1943E+00  +/-  0.4129E-03  (   0.213 %)
ABS virtual   = 0.4842E-06  +/-  0.8440E-09  (   0.174 %)
Born          = 0.1903E-05  +/-  0.2713E-08  (   0.143 %)
V  2          = -.6599E-09  +/-  0.1063E-08  ( 161.164 %)
B  2          = 0.1903E-05  +/-  0.2713E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9024E-06  +/-  0.1897E-08  (   0.210 %)
accumulated results Integral      = 0.5138E-06  +/-  0.2141E-08  (   0.417 %)
accumulated results Virtual       = -.6599E-09  +/-  0.1063E-08  ( 161.164 %)
accumulated results Virtual ratio = -.1943E+00  +/-  0.4129E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4842E-06  +/-  0.8440E-09  (   0.174 %)
accumulated results Born          = 0.1903E-05  +/-  0.2713E-08  (   0.143 %)
accumulated results V  2          = -.6599E-09  +/-  0.1063E-08  ( 161.164 %)
accumulated results B  2          = 0.1903E-05  +/-  0.2713E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                   2                        3                         4
channel    1 :     1 T   204215    24013  0.3293E-06  0.1858E-06  0.1000E+01
channel    2 :     1 T   207962    24468  0.3355E-06  0.1994E-06  0.9302E+00
channel    3 :     2 T    73091     8219  0.1177E-06  0.6081E-07  0.7804E+00
channel    4 :     2 T    74596     8835  0.1198E-06  0.6785E-07  0.9715E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0238035401165488E-007  +/-   1.8973177958153714E-009
 Final result:   5.1383198403682893E-007  +/-   2.1407146244275856E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406027
   Stability unknown:                                          0
   Stable PS point:                                       406027
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406027
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406027
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.82114315    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.34380579    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.62574291    
 Time spent in Integrated_CT :    11.3290405    
 Time spent in Virtuals :    716.933594    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.8435078    
 Time spent in N1body_prefactor :   0.916578770    
 Time spent in Adding_alphas_pdf :    12.8714027    
 Time spent in Reweight_scale :    54.5444183    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.2683830    
 Time spent in Applying_cuts :    7.28818655    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    53.1351700    
 Time spent in Other_tasks :    30.8568115    
 Time spent in Total :    934.777832    
Time in seconds: 951



LOG file for integration channel /P0_uux_emep/all_G1_30, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6190
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          30
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,  94710
  with seed                   49
 Ranmar initialization seeds         124       13891
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.435823D+04 0.435823D+04  1.00
 muF1, muF1_reference: 0.435823D+04 0.435823D+04  1.00
 muF2, muF2_reference: 0.435823D+04 0.435823D+04  1.00
 QES,  QES_reference:  0.435823D+04 0.435823D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4778594113290506E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4077382920412285E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4198975617002195E-005           OLP:   -1.4198975617002183E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0884095360170738E-006           OLP:   -5.0884095360165656E-006
  FINITE:
           OLP:   -9.5228980018003458E-004
           BORN:    4.0920864370306729E-003
  MOMENTA (Exyzm): 
           1   2409.7382649887941        0.0000000000000000        0.0000000000000000        2409.7382649887941        0.0000000000000000     
           2   2409.7382649887941       -0.0000000000000000       -0.0000000000000000       -2409.7382649887941        0.0000000000000000     
           3   2409.7382649887941       -1599.4032810829760       -1221.5394845894984        1325.3637001974350        0.0000000000000000     
           4   2409.7382649887941        1599.4032810829760        1221.5394845894984       -1325.3637001974350        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4198975617002195E-005           OLP:   -1.4198975617002183E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0884095360170704E-006           OLP:   -5.0884095360165656E-006
 Error #15 in genps_fks.f  -1.0728836059570312E-006           4
ABS integral  = 0.8995E-06  +/-  0.1858E-08  (   0.207 %)
Integral      = 0.5158E-06  +/-  0.2102E-08  (   0.408 %)
Virtual       = 0.6708E-09  +/-  0.1056E-08  ( 157.377 %)
Virtual ratio = -.1934E+00  +/-  0.4123E-03  (   0.213 %)
ABS virtual   = 0.4833E-06  +/-  0.8350E-09  (   0.173 %)
Born          = 0.1899E-05  +/-  0.2698E-08  (   0.142 %)
V  2          = 0.6708E-09  +/-  0.1056E-08  ( 157.377 %)
B  2          = 0.1899E-05  +/-  0.2698E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8995E-06  +/-  0.1858E-08  (   0.207 %)
accumulated results Integral      = 0.5158E-06  +/-  0.2102E-08  (   0.408 %)
accumulated results Virtual       = 0.6708E-09  +/-  0.1056E-08  ( 157.377 %)
accumulated results Virtual ratio = -.1934E+00  +/-  0.4123E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4833E-06  +/-  0.8350E-09  (   0.173 %)
accumulated results Born          = 0.1899E-05  +/-  0.2698E-08  (   0.142 %)
accumulated results V  2          = 0.6708E-09  +/-  0.1056E-08  ( 157.377 %)
accumulated results B  2          = 0.1899E-05  +/-  0.2698E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                     2                       3                         4
channel    1 :     1 T   203941    24013  0.3283E-06  0.1852E-06  0.9806E+00
channel    2 :     1 T   207852    24468  0.3337E-06  0.2000E-06  0.9452E+00
channel    3 :     2 T    73313     8219  0.1171E-06  0.6261E-07  0.9002E+00
channel    4 :     2 T    74765     8835  0.1203E-06  0.6795E-07  0.9267E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9948043009081260E-007  +/-   1.8575523289781655E-009
 Final result:   5.1582229225552504E-007  +/-   2.1024632299287954E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406062
   Stability unknown:                                          0
   Stable PS point:                                       406062
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406062
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406062
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.76026654    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.39191151    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.62517834    
 Time spent in Integrated_CT :    11.3666992    
 Time spent in Virtuals :    716.960144    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.8807487    
 Time spent in N1body_prefactor :   0.903338671    
 Time spent in Adding_alphas_pdf :    12.7798615    
 Time spent in Reweight_scale :    54.4334297    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.2254124    
 Time spent in Applying_cuts :    7.34479618    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    53.1092148    
 Time spent in Other_tasks :    30.6117554    
 Time spent in Total :    934.392639    
Time in seconds: 951



LOG file for integration channel /P0_uux_emep/all_G1_31, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6233
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          31
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 ,  97867
  with seed                   49
 Ranmar initialization seeds         124       17048
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.430573D+04 0.430573D+04  1.00
 muF1, muF1_reference: 0.430573D+04 0.430573D+04  1.00
 muF2, muF2_reference: 0.430573D+04 0.430573D+04  1.00
 QES,  QES_reference:  0.430573D+04 0.430573D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4864006812049536E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4070372617458510E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4288649850997309E-005           OLP:   -1.4288649850997302E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9277236509788096E-006           OLP:   -4.9277236509783013E-006
  FINITE:
           OLP:   -9.6131091680640743E-004
           BORN:    4.1179301828459074E-003
  MOMENTA (Exyzm): 
           1   2412.1873726745798        0.0000000000000000        0.0000000000000000        2412.1873726745798        0.0000000000000000     
           2   2412.1873726745798       -0.0000000000000000       -0.0000000000000000       -2412.1873726745798        0.0000000000000000     
           3   2412.1873726745798       -1144.5894526126992       -1647.9532185053215        1338.9597064424329        0.0000000000000000     
           4   2412.1873726745798        1144.5894526126992        1647.9532185053215       -1338.9597064424329        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4288649850997309E-005           OLP:   -1.4288649850997302E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9277236509788096E-006           OLP:   -4.9277236509783013E-006
ABS integral  = 0.9014E-06  +/-  0.2006E-08  (   0.223 %)
Integral      = 0.5117E-06  +/-  0.2238E-08  (   0.437 %)
Virtual       = 0.1245E-08  +/-  0.1063E-08  (  85.383 %)
Virtual ratio = -.1936E+00  +/-  0.4133E-03  (   0.213 %)
ABS virtual   = 0.4838E-06  +/-  0.8437E-09  (   0.174 %)
Born          = 0.1898E-05  +/-  0.2713E-08  (   0.143 %)
V  2          = 0.1245E-08  +/-  0.1063E-08  (  85.383 %)
B  2          = 0.1898E-05  +/-  0.2713E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9014E-06  +/-  0.2006E-08  (   0.223 %)
accumulated results Integral      = 0.5117E-06  +/-  0.2238E-08  (   0.437 %)
accumulated results Virtual       = 0.1245E-08  +/-  0.1063E-08  (  85.383 %)
accumulated results Virtual ratio = -.1936E+00  +/-  0.4133E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4838E-06  +/-  0.8437E-09  (   0.174 %)
accumulated results Born          = 0.1898E-05  +/-  0.2713E-08  (   0.143 %)
accumulated results V  2          = 0.1245E-08  +/-  0.1063E-08  (  85.383 %)
accumulated results B  2          = 0.1898E-05  +/-  0.2713E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                     2                       3                         4
channel    1 :     1 T   203634    24013  0.3279E-06  0.1844E-06  0.8344E+00
channel    2 :     1 T   208417    24468  0.3369E-06  0.1982E-06  0.9192E+00
channel    3 :     2 T    72987     8219  0.1167E-06  0.6133E-07  0.1000E+01
channel    4 :     2 T    74836     8835  0.1198E-06  0.6788E-07  0.9403E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0141140434416021E-007  +/-   2.0060101746685440E-009
 Final result:   5.1173379675382703E-007  +/-   2.2377763026822065E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405672
   Stability unknown:                                          0
   Stable PS point:                                       405672
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405672
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405672
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.79649818    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.30675364    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.60868692    
 Time spent in Integrated_CT :    11.3384399    
 Time spent in Virtuals :    710.231323    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.8118153    
 Time spent in N1body_prefactor :   0.896681130    
 Time spent in Adding_alphas_pdf :    12.7255001    
 Time spent in Reweight_scale :    54.8370285    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    19.8752632    
 Time spent in Applying_cuts :    7.18940210    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    52.8140907    
 Time spent in Other_tasks :    30.5188599    
 Time spent in Total :    926.950317    
Time in seconds: 936



LOG file for integration channel /P0_uux_emep/all_G1_32, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6232
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          32
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 101024
  with seed                   49
 Ranmar initialization seeds         124       20205
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.389365D+04 0.389365D+04  1.00
 muF1, muF1_reference: 0.389365D+04 0.389365D+04  1.00
 muF2, muF2_reference: 0.389365D+04 0.389365D+04  1.00
 QES,  QES_reference:  0.389365D+04 0.389365D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5580290358682509E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4143828336918668E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4103319924534280E-005           OLP:   -1.4103319924534252E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2563829712683878E-006           OLP:   -5.2563829712683235E-006
  FINITE:
           OLP:   -9.3797445249620354E-004
           BORN:    4.0645188594581032E-003
  MOMENTA (Exyzm): 
           1   2386.6718933085126        0.0000000000000000        0.0000000000000000        2386.6718933085126        0.0000000000000000     
           2   2386.6718933085126       -0.0000000000000000       -0.0000000000000000       -2386.6718933085126        0.0000000000000000     
           3   2386.6718933085126       -1715.9957808129066       -1030.7111258910902        1299.6906483873249        0.0000000000000000     
           4   2386.6718933085126        1715.9957808129066        1030.7111258910902       -1299.6906483873249        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4103319924534280E-005           OLP:   -1.4103319924534252E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2563829712683887E-006           OLP:   -5.2563829712683235E-006
ABS integral  = 0.9004E-06  +/-  0.2046E-08  (   0.227 %)
Integral      = 0.5122E-06  +/-  0.2273E-08  (   0.444 %)
Virtual       = -.1831E-08  +/-  0.1056E-08  (  57.683 %)
Virtual ratio = -.1940E+00  +/-  0.4124E-03  (   0.213 %)
ABS virtual   = 0.4833E-06  +/-  0.8356E-09  (   0.173 %)
Born          = 0.1900E-05  +/-  0.2688E-08  (   0.141 %)
V  2          = -.1831E-08  +/-  0.1056E-08  (  57.683 %)
B  2          = 0.1900E-05  +/-  0.2688E-08  (   0.141 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9004E-06  +/-  0.2046E-08  (   0.227 %)
accumulated results Integral      = 0.5122E-06  +/-  0.2273E-08  (   0.444 %)
accumulated results Virtual       = -.1831E-08  +/-  0.1056E-08  (  57.683 %)
accumulated results Virtual ratio = -.1940E+00  +/-  0.4124E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4833E-06  +/-  0.8356E-09  (   0.173 %)
accumulated results Born          = 0.1900E-05  +/-  0.2688E-08  (   0.141 %)
accumulated results V  2          = -.1831E-08  +/-  0.1056E-08  (  57.683 %)
accumulated results B  2          = 0.1900E-05  +/-  0.2688E-08  (   0.141 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                   2                        3                         4
channel    1 :     1 T   203963    24013  0.3289E-06  0.1860E-06  0.8532E+00
channel    2 :     1 T   208639    24468  0.3354E-06  0.1962E-06  0.8346E+00
channel    3 :     2 T    72956     8219  0.1176E-06  0.6317E-07  0.1000E+01
channel    4 :     2 T    74313     8835  0.1186E-06  0.6685E-07  0.9784E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0042888781919686E-007  +/-   2.0456915147560020E-009
 Final result:   5.1224328793903507E-007  +/-   2.2725153156771423E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406495
   Stability unknown:                                          0
   Stable PS point:                                       406495
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406495
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406495
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.75073528    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.34157276    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.57527256    
 Time spent in Integrated_CT :    11.2951050    
 Time spent in Virtuals :    712.622681    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.8127232    
 Time spent in N1body_prefactor :   0.910911083    
 Time spent in Adding_alphas_pdf :    12.9524250    
 Time spent in Reweight_scale :    54.5870667    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.0872612    
 Time spent in Applying_cuts :    7.19661331    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    52.9470329    
 Time spent in Other_tasks :    30.4087524    
 Time spent in Total :    929.488159    
Time in seconds: 941



LOG file for integration channel /P0_uux_emep/all_G1_33, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6230
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          33
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 104181
  with seed                   49
 Ranmar initialization seeds         124       23362
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.439200D+04 0.439200D+04  1.00
 muF1, muF1_reference: 0.439200D+04 0.439200D+04  1.00
 muF2, muF2_reference: 0.439200D+04 0.439200D+04  1.00
 QES,  QES_reference:  0.439200D+04 0.439200D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4724307568208581E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4075129337008813E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4186177635445461E-005           OLP:   -1.4186177635445457E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1110694855461069E-006           OLP:   -5.1110694855462416E-006
  FINITE:
           OLP:   -9.5126733357075240E-004
           BORN:    4.0883981113258965E-003
  MOMENTA (Exyzm): 
           1   2410.5252490681205        0.0000000000000000        0.0000000000000000        2410.5252490681205        0.0000000000000000     
           2   2410.5252490681205       -0.0000000000000000       -0.0000000000000000       -2410.5252490681205        0.0000000000000000     
           3   2410.5252490681205       -1677.0977769304679       -1115.7401939043093        1324.0463899411457        0.0000000000000000     
           4   2410.5252490681205        1677.0977769304679        1115.7401939043093       -1324.0463899411457        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4186177635445461E-005           OLP:   -1.4186177635445457E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1110694855461112E-006           OLP:   -5.1110694855462416E-006
ABS integral  = 0.9025E-06  +/-  0.1963E-08  (   0.217 %)
Integral      = 0.5130E-06  +/-  0.2199E-08  (   0.429 %)
Virtual       = -.1641E-08  +/-  0.1055E-08  (  64.306 %)
Virtual ratio = -.1945E+00  +/-  0.4122E-03  (   0.212 %)
ABS virtual   = 0.4829E-06  +/-  0.8350E-09  (   0.173 %)
Born          = 0.1901E-05  +/-  0.2703E-08  (   0.142 %)
V  2          = -.1641E-08  +/-  0.1055E-08  (  64.306 %)
B  2          = 0.1901E-05  +/-  0.2703E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9025E-06  +/-  0.1963E-08  (   0.217 %)
accumulated results Integral      = 0.5130E-06  +/-  0.2199E-08  (   0.429 %)
accumulated results Virtual       = -.1641E-08  +/-  0.1055E-08  (  64.306 %)
accumulated results Virtual ratio = -.1945E+00  +/-  0.4122E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4829E-06  +/-  0.8350E-09  (   0.173 %)
accumulated results Born          = 0.1901E-05  +/-  0.2703E-08  (   0.142 %)
accumulated results V  2          = -.1641E-08  +/-  0.1055E-08  (  64.306 %)
accumulated results B  2          = 0.1901E-05  +/-  0.2703E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   203871    24013  0.3286E-06  0.1823E-06  0.9545E+00
channel    2 :     1 T   208209    24468  0.3376E-06  0.2007E-06  0.8140E+00
channel    3 :     2 T    73154     8219  0.1166E-06  0.6273E-07  0.1000E+01
channel    4 :     2 T    74639     8835  0.1197E-06  0.6722E-07  0.9761E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0247860526104352E-007  +/-   1.9628358468582412E-009
 Final result:   5.1297019409602843E-007  +/-   2.1994240375924446E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406242
   Stability unknown:                                          0
   Stable PS point:                                       406242
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406242
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406242
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.77072740    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.31239986    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.62702847    
 Time spent in Integrated_CT :    11.3510132    
 Time spent in Virtuals :    715.235657    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.7499924    
 Time spent in N1body_prefactor :   0.922968626    
 Time spent in Adding_alphas_pdf :    12.8670101    
 Time spent in Reweight_scale :    54.7610855    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.0275974    
 Time spent in Applying_cuts :    7.15632915    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    53.4593811    
 Time spent in Other_tasks :    30.3247070    
 Time spent in Total :    932.565918    
Time in seconds: 949



LOG file for integration channel /P0_uux_emep/all_G1_34, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6219
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          34
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 107338
  with seed                   49
 Ranmar initialization seeds         124       26519
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.433136D+04 0.433136D+04  1.00
 muF1, muF1_reference: 0.433136D+04 0.433136D+04  1.00
 muF2, muF2_reference: 0.433136D+04 0.433136D+04  1.00
 QES,  QES_reference:  0.433136D+04 0.433136D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4822161305165391E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4149079984975982E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4030067812255473E-005           OLP:   -1.4030067812255476E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3824516363214846E-006           OLP:   -5.3824516363216964E-006
  FINITE:
           OLP:   -9.3071415868175471E-004
           BORN:    4.0434079016520331E-003
  MOMENTA (Exyzm): 
           1   2384.8600701277401        0.0000000000000000        0.0000000000000000        2384.8600701277401        0.0000000000000000     
           2   2384.8600701277401       -0.0000000000000000       -0.0000000000000000       -2384.8600701277401        0.0000000000000000     
           3   2384.8600701277401       -1631.4695108687431       -1168.3400235681950        1288.7382893838701        0.0000000000000000     
           4   2384.8600701277401        1631.4695108687431        1168.3400235681950       -1288.7382893838701        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4030067812255473E-005           OLP:   -1.4030067812255476E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3824516363214880E-006           OLP:   -5.3824516363216964E-006
ABS integral  = 0.9015E-06  +/-  0.1849E-08  (   0.205 %)
Integral      = 0.5180E-06  +/-  0.2096E-08  (   0.405 %)
Virtual       = 0.1238E-08  +/-  0.1058E-08  (  85.491 %)
Virtual ratio = -.1933E+00  +/-  0.4123E-03  (   0.213 %)
ABS virtual   = 0.4832E-06  +/-  0.8386E-09  (   0.174 %)
Born          = 0.1898E-05  +/-  0.2700E-08  (   0.142 %)
V  2          = 0.1238E-08  +/-  0.1058E-08  (  85.491 %)
B  2          = 0.1898E-05  +/-  0.2700E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9015E-06  +/-  0.1849E-08  (   0.205 %)
accumulated results Integral      = 0.5180E-06  +/-  0.2096E-08  (   0.405 %)
accumulated results Virtual       = 0.1238E-08  +/-  0.1058E-08  (  85.491 %)
accumulated results Virtual ratio = -.1933E+00  +/-  0.4123E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4832E-06  +/-  0.8386E-09  (   0.174 %)
accumulated results Born          = 0.1898E-05  +/-  0.2700E-08  (   0.142 %)
accumulated results V  2          = 0.1238E-08  +/-  0.1058E-08  (  85.491 %)
accumulated results B  2          = 0.1898E-05  +/-  0.2700E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                     2                       3                         4
channel    1 :     1 T   203481    24013  0.3273E-06  0.1840E-06  0.9886E+00
channel    2 :     1 T   208374    24468  0.3367E-06  0.2022E-06  0.9064E+00
channel    3 :     2 T    73273     8219  0.1175E-06  0.6421E-07  0.9717E+00
channel    4 :     2 T    74744     8835  0.1201E-06  0.6760E-07  0.9772E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0154342341683162E-007  +/-   1.8494735647017165E-009
 Final result:   5.1802141665703936E-007  +/-   2.0959434493618595E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406014
   Stability unknown:                                          0
   Stable PS point:                                       406014
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406014
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406014
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.74020469    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.37850475    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.56058836    
 Time spent in Integrated_CT :    11.3391113    
 Time spent in Virtuals :    715.519653    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.7099304    
 Time spent in N1body_prefactor :   0.927275300    
 Time spent in Adding_alphas_pdf :    12.8622398    
 Time spent in Reweight_scale :    55.5909538    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.0872383    
 Time spent in Applying_cuts :    7.20416594    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    53.0865326    
 Time spent in Other_tasks :    30.3152466    
 Time spent in Total :    933.321655    
Time in seconds: 950



LOG file for integration channel /P0_uux_emep/all_G1_35, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6250
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          35
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 110495
  with seed                   49
 Ranmar initialization seeds         124       29676
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.329432D+04 0.329432D+04  1.00
 muF1, muF1_reference: 0.329432D+04 0.329432D+04  1.00
 muF2, muF2_reference: 0.329432D+04 0.329432D+04  1.00
 QES,  QES_reference:  0.329432D+04 0.329432D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.6801321376830170E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4099964492948103E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4166364806489724E-005           OLP:   -1.4166364806489721E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1460859633727298E-006           OLP:   -5.1460859633727298E-006
  FINITE:
           OLP:   -9.4740068572367081E-004
           BORN:    4.0826881354208812E-003
  MOMENTA (Exyzm): 
           1   2401.8693719977132        0.0000000000000000        0.0000000000000000        2401.8693719977132        0.0000000000000000     
           2   2401.8693719977132       -0.0000000000000000       -0.0000000000000000       -2401.8693719977132        0.0000000000000000     
           3   2401.8693719977132       -1845.2093802685386       -794.21645309641895        1316.5861341897189        0.0000000000000000     
           4   2401.8693719977132        1845.2093802685386        794.21645309641895       -1316.5861341897189        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4166364806489724E-005           OLP:   -1.4166364806489721E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1460859633727298E-006           OLP:   -5.1460859633727298E-006
ABS integral  = 0.9026E-06  +/-  0.1977E-08  (   0.219 %)
Integral      = 0.5133E-06  +/-  0.2212E-08  (   0.431 %)
Virtual       = -.3710E-09  +/-  0.1058E-08  ( 285.092 %)
Virtual ratio = -.1934E+00  +/-  0.4128E-03  (   0.213 %)
ABS virtual   = 0.4830E-06  +/-  0.8379E-09  (   0.173 %)
Born          = 0.1897E-05  +/-  0.2699E-08  (   0.142 %)
V  2          = -.3710E-09  +/-  0.1058E-08  ( 285.092 %)
B  2          = 0.1897E-05  +/-  0.2699E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9026E-06  +/-  0.1977E-08  (   0.219 %)
accumulated results Integral      = 0.5133E-06  +/-  0.2212E-08  (   0.431 %)
accumulated results Virtual       = -.3710E-09  +/-  0.1058E-08  ( 285.092 %)
accumulated results Virtual ratio = -.1934E+00  +/-  0.4128E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4830E-06  +/-  0.8379E-09  (   0.173 %)
accumulated results Born          = 0.1897E-05  +/-  0.2699E-08  (   0.142 %)
accumulated results V  2          = -.3710E-09  +/-  0.1058E-08  ( 285.092 %)
accumulated results B  2          = 0.1897E-05  +/-  0.2699E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   203716    24013  0.3285E-06  0.1833E-06  0.9792E+00
channel    2 :     1 T   208451    24468  0.3376E-06  0.2004E-06  0.8313E+00
channel    3 :     2 T    72948     8219  0.1166E-06  0.6246E-07  0.9882E+00
channel    4 :     2 T    74755     8835  0.1199E-06  0.6715E-07  0.8720E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0256854852573417E-007  +/-   1.9771961109428035E-009
 Final result:   5.1329516475680473E-007  +/-   2.2121799868015853E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405857
   Stability unknown:                                          0
   Stable PS point:                                       405857
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405857
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405857
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.78774869    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.36786222    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.58414459    
 Time spent in Integrated_CT :    11.4575195    
 Time spent in Virtuals :    723.059204    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.8996677    
 Time spent in N1body_prefactor :   0.965406775    
 Time spent in Adding_alphas_pdf :    12.9408760    
 Time spent in Reweight_scale :    55.0964508    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.1914825    
 Time spent in Applying_cuts :    7.30284882    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    53.3555450    
 Time spent in Other_tasks :    31.2204590    
 Time spent in Total :    942.229126    
Time in seconds: 956



LOG file for integration channel /P0_uux_emep/all_G1_36, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6238
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          36
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 113652
  with seed                   49
 Ranmar initialization seeds         124        2752
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.422031D+04 0.422031D+04  1.00
 muF1, muF1_reference: 0.422031D+04 0.422031D+04  1.00
 muF2, muF2_reference: 0.422031D+04 0.422031D+04  1.00
 QES,  QES_reference:  0.422031D+04 0.422031D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5005614874229257E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4119730255506375E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4171129445481193E-005           OLP:   -1.4171129445481186E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1377396448560693E-006           OLP:   -5.1377396448564047E-006
  FINITE:
           OLP:   -9.4625653494728290E-004
           BORN:    4.0840612848029390E-003
  MOMENTA (Exyzm): 
           1   2395.0068722185183        0.0000000000000000        0.0000000000000000        2395.0068722185183        0.0000000000000000     
           2   2395.0068722185183       -0.0000000000000000       -0.0000000000000000       -2395.0068722185183        0.0000000000000000     
           3   2395.0068722185183       -1758.3489839769898       -958.67840092409460        1313.4696388278790        0.0000000000000000     
           4   2395.0068722185183        1758.3489839769898        958.67840092409460       -1313.4696388278790        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4171129445481193E-005           OLP:   -1.4171129445481186E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1377396448560693E-006           OLP:   -5.1377396448564047E-006
ABS integral  = 0.9010E-06  +/-  0.1828E-08  (   0.203 %)
Integral      = 0.5127E-06  +/-  0.2079E-08  (   0.405 %)
Virtual       = -.2741E-09  +/-  0.1062E-08  ( 387.391 %)
Virtual ratio = -.1940E+00  +/-  0.4125E-03  (   0.213 %)
ABS virtual   = 0.4837E-06  +/-  0.8422E-09  (   0.174 %)
Born          = 0.1901E-05  +/-  0.2713E-08  (   0.143 %)
V  2          = -.2741E-09  +/-  0.1062E-08  ( 387.391 %)
B  2          = 0.1901E-05  +/-  0.2713E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9010E-06  +/-  0.1828E-08  (   0.203 %)
accumulated results Integral      = 0.5127E-06  +/-  0.2079E-08  (   0.405 %)
accumulated results Virtual       = -.2741E-09  +/-  0.1062E-08  ( 387.391 %)
accumulated results Virtual ratio = -.1940E+00  +/-  0.4125E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4837E-06  +/-  0.8422E-09  (   0.174 %)
accumulated results Born          = 0.1901E-05  +/-  0.2713E-08  (   0.143 %)
accumulated results V  2          = -.2741E-09  +/-  0.1062E-08  ( 387.391 %)
accumulated results B  2          = 0.1901E-05  +/-  0.2713E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   203453    24013  0.3274E-06  0.1822E-06  0.9881E+00
channel    2 :     1 T   208692    24468  0.3367E-06  0.1998E-06  0.9250E+00
channel    3 :     2 T    73334     8219  0.1168E-06  0.6278E-07  0.1000E+01
channel    4 :     2 T    74394     8835  0.1201E-06  0.6798E-07  0.9755E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0100914093630646E-007  +/-   1.8275913157089902E-009
 Final result:   5.1270086558908266E-007  +/-   2.0786032433894377E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405946
   Stability unknown:                                          0
   Stable PS point:                                       405946
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405946
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405946
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.79763246    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.39424467    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.67096043    
 Time spent in Integrated_CT :    11.6015015    
 Time spent in Virtuals :    719.707214    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.9112167    
 Time spent in N1body_prefactor :   0.925412774    
 Time spent in Adding_alphas_pdf :    12.7961311    
 Time spent in Reweight_scale :    54.4028091    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.2109585    
 Time spent in Applying_cuts :    7.30029106    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    54.4892006    
 Time spent in Other_tasks :    30.7780762    
 Time spent in Total :    938.985657    
Time in seconds: 954



LOG file for integration channel /P0_uux_emep/all_G1_37, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6237
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          37
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 116809
  with seed                   49
 Ranmar initialization seeds         124        5909
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.445357D+04 0.445357D+04  1.00
 muF1, muF1_reference: 0.445357D+04 0.445357D+04  1.00
 muF2, muF2_reference: 0.445357D+04 0.445357D+04  1.00
 QES,  QES_reference:  0.445357D+04 0.445357D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4626580778915416E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4127370917948202E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4037442459241569E-005           OLP:   -1.4037442459241576E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3698067442469632E-006           OLP:   -5.3698067442469903E-006
  FINITE:
           OLP:   -9.3312752447159372E-004
           BORN:    4.0455332446150535E-003
  MOMENTA (Exyzm): 
           1   2392.3603805344956        0.0000000000000000        0.0000000000000000        2392.3603805344956        0.0000000000000000     
           2   2392.3603805344956       -0.0000000000000000       -0.0000000000000000       -2392.3603805344956        0.0000000000000000     
           3   2392.3603805344956       -1748.4262901293744       -996.22747051765907        1293.8023517220770        0.0000000000000000     
           4   2392.3603805344956        1748.4262901293744        996.22747051765907       -1293.8023517220770        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4037442459241569E-005           OLP:   -1.4037442459241576E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3698067442469598E-006           OLP:   -5.3698067442469903E-006
ABS integral  = 0.9035E-06  +/-  0.2495E-08  (   0.276 %)
Integral      = 0.5102E-06  +/-  0.2686E-08  (   0.527 %)
Virtual       = 0.3296E-09  +/-  0.1061E-08  ( 321.910 %)
Virtual ratio = -.1937E+00  +/-  0.4129E-03  (   0.213 %)
ABS virtual   = 0.4837E-06  +/-  0.8414E-09  (   0.174 %)
Born          = 0.1900E-05  +/-  0.2706E-08  (   0.142 %)
V  2          = 0.3296E-09  +/-  0.1061E-08  ( 321.910 %)
B  2          = 0.1900E-05  +/-  0.2706E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9035E-06  +/-  0.2495E-08  (   0.276 %)
accumulated results Integral      = 0.5102E-06  +/-  0.2686E-08  (   0.527 %)
accumulated results Virtual       = 0.3296E-09  +/-  0.1061E-08  ( 321.910 %)
accumulated results Virtual ratio = -.1937E+00  +/-  0.4129E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4837E-06  +/-  0.8414E-09  (   0.174 %)
accumulated results Born          = 0.1900E-05  +/-  0.2706E-08  (   0.142 %)
accumulated results V  2          = 0.3296E-09  +/-  0.1061E-08  ( 321.910 %)
accumulated results B  2          = 0.1900E-05  +/-  0.2706E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   203964    24013  0.3279E-06  0.1853E-06  0.1000E+01
channel    2 :     1 T   207919    24468  0.3351E-06  0.1982E-06  0.9421E+00
channel    3 :     2 T    73278     8219  0.1185E-06  0.6070E-07  0.5511E+00
channel    4 :     2 T    74705     8835  0.1220E-06  0.6597E-07  0.4972E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0353180980360164E-007  +/-   2.4946901929406705E-009
 Final result:   5.1020909649523631E-007  +/-   2.6863849400224555E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405936
   Stability unknown:                                          0
   Stable PS point:                                       405936
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405936
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405936
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.79066300    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.41156101    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.64542198    
 Time spent in Integrated_CT :    11.4589233    
 Time spent in Virtuals :    719.240417    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.8358335    
 Time spent in N1body_prefactor :   0.912607908    
 Time spent in Adding_alphas_pdf :    12.8209753    
 Time spent in Reweight_scale :    54.6731987    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.3753376    
 Time spent in Applying_cuts :    7.23507690    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    53.3076210    
 Time spent in Other_tasks :    31.0946045    
 Time spent in Total :    937.802246    
Time in seconds: 954



LOG file for integration channel /P0_uux_emep/all_G1_38, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6245
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          38
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 119966
  with seed                   49
 Ranmar initialization seeds         124        9066
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.444438D+04 0.444438D+04  1.00
 muF1, muF1_reference: 0.444438D+04 0.444438D+04  1.00
 muF2, muF2_reference: 0.444438D+04 0.444438D+04  1.00
 QES,  QES_reference:  0.444438D+04 0.444438D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4641061444072232E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4125343736470714E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4118397556754309E-005           OLP:   -1.4118397556754306E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2301301500142018E-006           OLP:   -5.2301301500135767E-006
  FINITE:
           OLP:   -9.4086375231148970E-004
           BORN:    4.0688641711182092E-003
  MOMENTA (Exyzm): 
           1   2393.0621934874289        0.0000000000000000        0.0000000000000000        2393.0621934874289        0.0000000000000000     
           2   2393.0621934874289       -0.0000000000000000       -0.0000000000000000       -2393.0621934874289        0.0000000000000000     
           3   2393.0621934874289       -1159.8954458471048       -1636.3892903573055        1305.2276839716224        0.0000000000000000     
           4   2393.0621934874289        1159.8954458471048        1636.3892903573055       -1305.2276839716224        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4118397556754309E-005           OLP:   -1.4118397556754306E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2301301500142018E-006           OLP:   -5.2301301500135767E-006
ABS integral  = 0.9081E-06  +/-  0.2011E-08  (   0.221 %)
Integral      = 0.5138E-06  +/-  0.2247E-08  (   0.437 %)
Virtual       = -.1649E-08  +/-  0.1068E-08  (  64.764 %)
Virtual ratio = -.1940E+00  +/-  0.4124E-03  (   0.213 %)
ABS virtual   = 0.4859E-06  +/-  0.8480E-09  (   0.175 %)
Born          = 0.1908E-05  +/-  0.2727E-08  (   0.143 %)
V  2          = -.1649E-08  +/-  0.1068E-08  (  64.764 %)
B  2          = 0.1908E-05  +/-  0.2727E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9081E-06  +/-  0.2011E-08  (   0.221 %)
accumulated results Integral      = 0.5138E-06  +/-  0.2247E-08  (   0.437 %)
accumulated results Virtual       = -.1649E-08  +/-  0.1068E-08  (  64.764 %)
accumulated results Virtual ratio = -.1940E+00  +/-  0.4124E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4859E-06  +/-  0.8480E-09  (   0.175 %)
accumulated results Born          = 0.1908E-05  +/-  0.2727E-08  (   0.143 %)
accumulated results V  2          = -.1649E-08  +/-  0.1068E-08  (  64.764 %)
accumulated results B  2          = 0.1908E-05  +/-  0.2727E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   204141    24013  0.3305E-06  0.1843E-06  0.8358E+00
channel    2 :     1 T   207652    24468  0.3389E-06  0.1999E-06  0.9123E+00
channel    3 :     2 T    73340     8219  0.1181E-06  0.6152E-07  0.9853E+00
channel    4 :     2 T    74740     8835  0.1205E-06  0.6812E-07  0.9752E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0812347439480413E-007  +/-   2.0114230954187109E-009
 Final result:   5.1376519906305666E-007  +/-   2.2466334212358050E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406657
   Stability unknown:                                          0
   Stable PS point:                                       406657
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406657
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406657
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.77313626    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.35841465    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.54271841    
 Time spent in Integrated_CT :    11.4409180    
 Time spent in Virtuals :    718.908752    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.7598791    
 Time spent in N1body_prefactor :   0.907329082    
 Time spent in Adding_alphas_pdf :    13.0112247    
 Time spent in Reweight_scale :    54.9195633    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.3087502    
 Time spent in Applying_cuts :    7.32585192    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    53.0579033    
 Time spent in Other_tasks :    30.8660278    
 Time spent in Total :    937.180542    
Time in seconds: 952



LOG file for integration channel /P0_uux_emep/all_G1_39, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6246
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          39
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 123123
  with seed                   49
 Ranmar initialization seeds         124       12223
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.437082D+04 0.437082D+04  1.00
 muF1, muF1_reference: 0.437082D+04 0.437082D+04  1.00
 muF2, muF2_reference: 0.437082D+04 0.437082D+04  1.00
 QES,  QES_reference:  0.437082D+04 0.437082D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4758300719003842E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4123744816808765E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4100380709221725E-005           OLP:   -1.4100380709221713E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2614351521936730E-006           OLP:   -5.2614351521932978E-006
  FINITE:
           OLP:   -9.3930464281267621E-004
           BORN:    4.0636717896806460E-003
  MOMENTA (Exyzm): 
           1   2393.6159151566035        0.0000000000000000        0.0000000000000000        2393.6159151566035        0.0000000000000000     
           2   2393.6159151566035       -0.0000000000000000       -0.0000000000000000       -2393.6159151566035        0.0000000000000000     
           3   2393.6159151566035       -1680.5989591092039       -1098.6270516261829        1303.0743990145788        0.0000000000000000     
           4   2393.6159151566035        1680.5989591092039        1098.6270516261829       -1303.0743990145788        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4100380709221725E-005           OLP:   -1.4100380709221713E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2614351521936730E-006           OLP:   -5.2614351521932978E-006
ABS integral  = 0.9031E-06  +/-  0.1848E-08  (   0.205 %)
Integral      = 0.5167E-06  +/-  0.2097E-08  (   0.406 %)
Virtual       = 0.5187E-09  +/-  0.1059E-08  ( 204.233 %)
Virtual ratio = -.1930E+00  +/-  0.4126E-03  (   0.214 %)
ABS virtual   = 0.4841E-06  +/-  0.8390E-09  (   0.173 %)
Born          = 0.1903E-05  +/-  0.2714E-08  (   0.143 %)
V  2          = 0.5187E-09  +/-  0.1059E-08  ( 204.233 %)
B  2          = 0.1903E-05  +/-  0.2714E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9031E-06  +/-  0.1848E-08  (   0.205 %)
accumulated results Integral      = 0.5167E-06  +/-  0.2097E-08  (   0.406 %)
accumulated results Virtual       = 0.5187E-09  +/-  0.1059E-08  ( 204.233 %)
accumulated results Virtual ratio = -.1930E+00  +/-  0.4126E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4841E-06  +/-  0.8390E-09  (   0.173 %)
accumulated results Born          = 0.1903E-05  +/-  0.2714E-08  (   0.143 %)
accumulated results V  2          = 0.5187E-09  +/-  0.1059E-08  ( 204.233 %)
accumulated results B  2          = 0.1903E-05  +/-  0.2714E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   203952    24013  0.3281E-06  0.1867E-06  0.1000E+01
channel    2 :     1 T   208646    24468  0.3371E-06  0.1990E-06  0.9157E+00
channel    3 :     2 T    72891     8219  0.1175E-06  0.6258E-07  0.9469E+00
channel    4 :     2 T    74383     8835  0.1205E-06  0.6848E-07  0.9514E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0314187343499519E-007  +/-   1.8484762040925940E-009
 Final result:   5.1668685595793924E-007  +/-   2.0968809223496109E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405989
   Stability unknown:                                          0
   Stable PS point:                                       405989
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405989
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405989
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.77786863    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.32140732    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.67097664    
 Time spent in Integrated_CT :    11.6060181    
 Time spent in Virtuals :    719.399658    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.9320927    
 Time spent in N1body_prefactor :   0.953421712    
 Time spent in Adding_alphas_pdf :    12.7652073    
 Time spent in Reweight_scale :    54.8770523    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.1593475    
 Time spent in Applying_cuts :    7.25607204    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    53.5142899    
 Time spent in Other_tasks :    31.1348877    
 Time spent in Total :    938.368286    
Time in seconds: 953



LOG file for integration channel /P0_uux_emep/all_G1_40, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6244
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          40
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 126280
  with seed                   49
 Ranmar initialization seeds         124       15380
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.444109D+04 0.444109D+04  1.00
 muF1, muF1_reference: 0.444109D+04 0.444109D+04  1.00
 muF2, muF2_reference: 0.444109D+04 0.444109D+04  1.00
 QES,  QES_reference:  0.444109D+04 0.444109D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4646262198947530E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4126509282700995E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4095440825401909E-005           OLP:   -1.4095440825401908E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2700033254631505E-006           OLP:   -5.2700033254633131E-006
  FINITE:
           OLP:   -9.3862120317782433E-004
           BORN:    4.0622481354590434E-003
  MOMENTA (Exyzm): 
           1   2392.6586497623607        0.0000000000000000        0.0000000000000000        2392.6586497623607        0.0000000000000000     
           2   2392.6586497623607       -0.0000000000000000       -0.0000000000000000       -2392.6586497623607        0.0000000000000000     
           3   2392.6586497623607       -2003.2519235515219       -130.02621162160963        1301.8795371927090        0.0000000000000000     
           4   2392.6586497623607        2003.2519235515219        130.02621162160963       -1301.8795371927090        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4095440825401909E-005           OLP:   -1.4095440825401908E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2700033254631513E-006           OLP:   -5.2700033254633131E-006
ABS integral  = 0.9021E-06  +/-  0.1847E-08  (   0.205 %)
Integral      = 0.5163E-06  +/-  0.2095E-08  (   0.406 %)
Virtual       = -.6937E-09  +/-  0.1059E-08  ( 152.677 %)
Virtual ratio = -.1939E+00  +/-  0.4118E-03  (   0.212 %)
ABS virtual   = 0.4840E-06  +/-  0.8386E-09  (   0.173 %)
Born          = 0.1904E-05  +/-  0.2714E-08  (   0.143 %)
V  2          = -.6937E-09  +/-  0.1059E-08  ( 152.677 %)
B  2          = 0.1904E-05  +/-  0.2714E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9021E-06  +/-  0.1847E-08  (   0.205 %)
accumulated results Integral      = 0.5163E-06  +/-  0.2095E-08  (   0.406 %)
accumulated results Virtual       = -.6937E-09  +/-  0.1059E-08  ( 152.677 %)
accumulated results Virtual ratio = -.1939E+00  +/-  0.4118E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4840E-06  +/-  0.8386E-09  (   0.173 %)
accumulated results Born          = 0.1904E-05  +/-  0.2714E-08  (   0.143 %)
accumulated results V  2          = -.6937E-09  +/-  0.1059E-08  ( 152.677 %)
accumulated results B  2          = 0.1904E-05  +/-  0.2714E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   204440    24013  0.3288E-06  0.1856E-06  0.1000E+01
channel    2 :     1 T   207939    24468  0.3358E-06  0.1990E-06  0.9162E+00
channel    3 :     2 T    72984     8219  0.1175E-06  0.6150E-07  0.9963E+00
channel    4 :     2 T    74507     8835  0.1200E-06  0.7017E-07  0.8901E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0214150343685142E-007  +/-   1.8467209429504898E-009
 Final result:   5.1630466928044671E-007  +/-   2.0947322190413872E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406588
   Stability unknown:                                          0
   Stable PS point:                                       406588
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406588
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406588
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.75534558    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.35023975    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.57012415    
 Time spent in Integrated_CT :    11.5324097    
 Time spent in Virtuals :    719.535278    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.9217358    
 Time spent in N1body_prefactor :   0.922847927    
 Time spent in Adding_alphas_pdf :    13.6252489    
 Time spent in Reweight_scale :    56.5603409    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.2111511    
 Time spent in Applying_cuts :    7.25353765    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    53.6490021    
 Time spent in Other_tasks :    30.8141479    
 Time spent in Total :    940.701416    
Time in seconds: 956



LOG file for integration channel /P0_uux_emep/all_G1_41, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6239
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          41
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 129437
  with seed                   49
 Ranmar initialization seeds         124       18537
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.445067D+04 0.445067D+04  1.00
 muF1, muF1_reference: 0.445067D+04 0.445067D+04  1.00
 muF2, muF2_reference: 0.445067D+04 0.445067D+04  1.00
 QES,  QES_reference:  0.445067D+04 0.445067D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4631145912278582E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4176346972472232E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.3997528616069286E-005           OLP:   -1.3997528616069276E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.4378331040473903E-006           OLP:   -5.4378331040469337E-006
  FINITE:
           OLP:   -9.2552296098586230E-004
           BORN:    4.0340302389968528E-003
  MOMENTA (Exyzm): 
           1   2375.4793161973480        0.0000000000000000        0.0000000000000000        2375.4793161973480        0.0000000000000000     
           2   2375.4793161973480       -0.0000000000000000       -0.0000000000000000       -2375.4793161973480        0.0000000000000000     
           3   2375.4793161973480       -1167.8379697510902       -1625.6032391672841        1279.2460931728133        0.0000000000000000     
           4   2375.4793161973480        1167.8379697510902        1625.6032391672841       -1279.2460931728133        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.3997528616069286E-005           OLP:   -1.3997528616069276E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.4378331040473903E-006           OLP:   -5.4378331040469337E-006
ABS integral  = 0.9020E-06  +/-  0.2200E-08  (   0.244 %)
Integral      = 0.5106E-06  +/-  0.2414E-08  (   0.473 %)
Virtual       = -.9894E-09  +/-  0.1059E-08  ( 107.006 %)
Virtual ratio = -.1943E+00  +/-  0.4120E-03  (   0.212 %)
ABS virtual   = 0.4833E-06  +/-  0.8389E-09  (   0.174 %)
Born          = 0.1901E-05  +/-  0.2710E-08  (   0.143 %)
V  2          = -.9894E-09  +/-  0.1059E-08  ( 107.006 %)
B  2          = 0.1901E-05  +/-  0.2710E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9020E-06  +/-  0.2200E-08  (   0.244 %)
accumulated results Integral      = 0.5106E-06  +/-  0.2414E-08  (   0.473 %)
accumulated results Virtual       = -.9894E-09  +/-  0.1059E-08  ( 107.006 %)
accumulated results Virtual ratio = -.1943E+00  +/-  0.4120E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4833E-06  +/-  0.8389E-09  (   0.174 %)
accumulated results Born          = 0.1901E-05  +/-  0.2710E-08  (   0.143 %)
accumulated results V  2          = -.9894E-09  +/-  0.1059E-08  ( 107.006 %)
accumulated results B  2          = 0.1901E-05  +/-  0.2710E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   204038    24013  0.3289E-06  0.1826E-06  0.7465E+00
channel    2 :     1 T   208107    24468  0.3352E-06  0.1981E-06  0.8739E+00
channel    3 :     2 T    73341     8219  0.1185E-06  0.6250E-07  0.9022E+00
channel    4 :     2 T    74385     8835  0.1193E-06  0.6740E-07  0.9168E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0195803626161410E-007  +/-   2.1995916538522901E-009
 Final result:   5.1056267464752582E-007  +/-   2.4136421716816337E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406120
   Stability unknown:                                          0
   Stable PS point:                                       406120
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406120
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406120
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.81868696    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.33296776    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.58926868    
 Time spent in Integrated_CT :    11.4025269    
 Time spent in Virtuals :    712.809082    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.8680191    
 Time spent in N1body_prefactor :   0.916033089    
 Time spent in Adding_alphas_pdf :    12.8064442    
 Time spent in Reweight_scale :    54.0424271    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.2045517    
 Time spent in Applying_cuts :    7.39601040    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    53.4727364    
 Time spent in Other_tasks :    30.4540405    
 Time spent in Total :    930.112732    
Time in seconds: 944



LOG file for integration channel /P0_uux_emep/all_G1_42, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6253
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          42
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 132594
  with seed                   49
 Ranmar initialization seeds         124       21694
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.437203D+04 0.437203D+04  1.00
 muF1, muF1_reference: 0.437203D+04 0.437203D+04  1.00
 muF2, muF2_reference: 0.437203D+04 0.437203D+04  1.00
 QES,  QES_reference:  0.437203D+04 0.437203D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4756350347025990E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4107328144770460E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4130515011680848E-005           OLP:   -1.4130515011680843E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2089586783784067E-006           OLP:   -5.2089586783784169E-006
  FINITE:
           OLP:   -9.4344383400999320E-004
           BORN:    4.0723563718440730E-003
  MOMENTA (Exyzm): 
           1   2399.3100343968113        0.0000000000000000        0.0000000000000000        2399.3100343968113        0.0000000000000000     
           2   2399.3100343968113       -0.0000000000000000       -0.0000000000000000       -2399.3100343968113        0.0000000000000000     
           3   2399.3100343968113       -2004.9843772808738       -140.92517160885092        1310.2924803355434        0.0000000000000000     
           4   2399.3100343968113        2004.9843772808738        140.92517160885092       -1310.2924803355434        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4130515011680848E-005           OLP:   -1.4130515011680843E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2089586783784110E-006           OLP:   -5.2089586783784169E-006
ABS integral  = 0.9039E-06  +/-  0.1892E-08  (   0.209 %)
Integral      = 0.5150E-06  +/-  0.2137E-08  (   0.415 %)
Virtual       = -.1057E-08  +/-  0.1061E-08  ( 100.341 %)
Virtual ratio = -.1942E+00  +/-  0.4126E-03  (   0.212 %)
ABS virtual   = 0.4836E-06  +/-  0.8413E-09  (   0.174 %)
Born          = 0.1902E-05  +/-  0.2714E-08  (   0.143 %)
V  2          = -.1057E-08  +/-  0.1061E-08  ( 100.341 %)
B  2          = 0.1902E-05  +/-  0.2714E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9039E-06  +/-  0.1892E-08  (   0.209 %)
accumulated results Integral      = 0.5150E-06  +/-  0.2137E-08  (   0.415 %)
accumulated results Virtual       = -.1057E-08  +/-  0.1061E-08  ( 100.341 %)
accumulated results Virtual ratio = -.1942E+00  +/-  0.4126E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4836E-06  +/-  0.8413E-09  (   0.174 %)
accumulated results Born          = 0.1902E-05  +/-  0.2714E-08  (   0.143 %)
accumulated results V  2          = -.1057E-08  +/-  0.1061E-08  ( 100.341 %)
accumulated results B  2          = 0.1902E-05  +/-  0.2714E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   203578    24013  0.3294E-06  0.1859E-06  0.9511E+00
channel    2 :     1 T   208237    24468  0.3367E-06  0.1991E-06  0.9119E+00
channel    3 :     2 T    73222     8219  0.1173E-06  0.6245E-07  0.9642E+00
channel    4 :     2 T    74834     8835  0.1205E-06  0.6760E-07  0.9488E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0394563454375427E-007  +/-   1.8920814090120467E-009
 Final result:   5.1504792801581193E-007  +/-   2.1367339308845239E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406233
   Stability unknown:                                          0
   Stable PS point:                                       406233
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406233
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406233
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.76535547    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.37831640    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.64349174    
 Time spent in Integrated_CT :    11.5526123    
 Time spent in Virtuals :    713.371948    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.8894567    
 Time spent in N1body_prefactor :   0.924323320    
 Time spent in Adding_alphas_pdf :    12.9507179    
 Time spent in Reweight_scale :    54.7275276    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.6468868    
 Time spent in Applying_cuts :    7.34342909    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    53.2663078    
 Time spent in Other_tasks :    30.7229004    
 Time spent in Total :    932.183350    
Time in seconds: 947



LOG file for integration channel /P0_uux_emep/all_G1_43, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6262
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          43
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 135751
  with seed                   49
 Ranmar initialization seeds         124       24851
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.425471D+04 0.425471D+04  1.00
 muF1, muF1_reference: 0.425471D+04 0.425471D+04  1.00
 muF2, muF2_reference: 0.425471D+04 0.425471D+04  1.00
 QES,  QES_reference:  0.425471D+04 0.425471D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4948172001500363E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4042363991966703E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4253617571499225E-005           OLP:   -1.4253617571499215E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9908134983663851E-006           OLP:   -4.9908134983665224E-006
  FINITE:
           OLP:   -9.6028582423584750E-004
           BORN:    4.1078340238229483E-003
  MOMENTA (Exyzm): 
           1   2422.0021310407355        0.0000000000000000        0.0000000000000000        2422.0021310407355        0.0000000000000000     
           2   2422.0021310407355       -0.0000000000000000       -0.0000000000000000       -2422.0021310407355        0.0000000000000000     
           3   2422.0021310407355       -1963.5851416063310       -464.61229670507231        1339.6130516604960        0.0000000000000000     
           4   2422.0021310407355        1963.5851416063310        464.61229670507231       -1339.6130516604960        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4253617571499225E-005           OLP:   -1.4253617571499215E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9908134983663860E-006           OLP:   -4.9908134983665224E-006
ABS integral  = 0.9081E-06  +/-  0.2034E-08  (   0.224 %)
Integral      = 0.5166E-06  +/-  0.2266E-08  (   0.439 %)
Virtual       = 0.2826E-08  +/-  0.1063E-08  (  37.623 %)
Virtual ratio = -.1930E+00  +/-  0.4127E-03  (   0.214 %)
ABS virtual   = 0.4848E-06  +/-  0.8431E-09  (   0.174 %)
Born          = 0.1904E-05  +/-  0.2722E-08  (   0.143 %)
V  2          = 0.2826E-08  +/-  0.1063E-08  (  37.623 %)
B  2          = 0.1904E-05  +/-  0.2722E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9081E-06  +/-  0.2034E-08  (   0.224 %)
accumulated results Integral      = 0.5166E-06  +/-  0.2266E-08  (   0.439 %)
accumulated results Virtual       = 0.2826E-08  +/-  0.1063E-08  (  37.623 %)
accumulated results Virtual ratio = -.1930E+00  +/-  0.4127E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4848E-06  +/-  0.8431E-09  (   0.174 %)
accumulated results Born          = 0.1904E-05  +/-  0.2722E-08  (   0.143 %)
accumulated results V  2          = 0.2826E-08  +/-  0.1063E-08  (  37.623 %)
accumulated results B  2          = 0.1904E-05  +/-  0.2722E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                     2                       3                         4
channel    1 :     1 T   203691    24013  0.3289E-06  0.1835E-06  0.9115E+00
channel    2 :     1 T   208417    24468  0.3402E-06  0.2031E-06  0.8333E+00
channel    3 :     2 T    73567     8219  0.1192E-06  0.6232E-07  0.9617E+00
channel    4 :     2 T    74198     8835  0.1198E-06  0.6773E-07  0.9146E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0812313695228188E-007  +/-   2.0343650675939864E-009
 Final result:   5.1663570077028283E-007  +/-   2.2660309042283766E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406464
   Stability unknown:                                          0
   Stable PS point:                                       406464
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406464
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406464
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.77911663    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.31263781    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.62017298    
 Time spent in Integrated_CT :    11.3320312    
 Time spent in Virtuals :    713.809143    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.7751589    
 Time spent in N1body_prefactor :   0.908545852    
 Time spent in Adding_alphas_pdf :    12.7933207    
 Time spent in Reweight_scale :    54.9094315    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.3899574    
 Time spent in Applying_cuts :    7.29926491    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    53.2345428    
 Time spent in Other_tasks :    30.5251465    
 Time spent in Total :    931.688477    
Time in seconds: 947



LOG file for integration channel /P0_uux_emep/all_G1_44, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6260
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          44
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 138908
  with seed                   49
 Ranmar initialization seeds         124       28008
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.439660D+04 0.439660D+04  1.00
 muF1, muF1_reference: 0.439660D+04 0.439660D+04  1.00
 muF2, muF2_reference: 0.439660D+04 0.439660D+04  1.00
 QES,  QES_reference:  0.439660D+04 0.439660D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4716941746194476E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4074939935725753E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4051695037065670E-005           OLP:   -1.4051695037065683E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3452847706673136E-006           OLP:   -5.3452847706647632E-006
  FINITE:
           OLP:   -9.3864220667444899E-004
           BORN:    4.0496407789879481E-003
  MOMENTA (Exyzm): 
           1   2410.5914047317906        0.0000000000000000        0.0000000000000000        2410.5914047317906        0.0000000000000000     
           2   2410.5914047317906       -0.0000000000000000       -0.0000000000000000       -2410.5914047317906        0.0000000000000000     
           3   2410.5914047317906       -1459.5399700944517       -1405.7101549730749        1305.6312482738181        0.0000000000000000     
           4   2410.5914047317906        1459.5399700944517        1405.7101549730749       -1305.6312482738181        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4051695037065670E-005           OLP:   -1.4051695037065683E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3452847706673153E-006           OLP:   -5.3452847706647632E-006
ABS integral  = 0.9029E-06  +/-  0.1922E-08  (   0.213 %)
Integral      = 0.5101E-06  +/-  0.2165E-08  (   0.424 %)
Virtual       = -.1753E-08  +/-  0.1058E-08  (  60.343 %)
Virtual ratio = -.1941E+00  +/-  0.4123E-03  (   0.212 %)
ABS virtual   = 0.4832E-06  +/-  0.8381E-09  (   0.173 %)
Born          = 0.1900E-05  +/-  0.2700E-08  (   0.142 %)
V  2          = -.1753E-08  +/-  0.1058E-08  (  60.343 %)
B  2          = 0.1900E-05  +/-  0.2700E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9029E-06  +/-  0.1922E-08  (   0.213 %)
accumulated results Integral      = 0.5101E-06  +/-  0.2165E-08  (   0.424 %)
accumulated results Virtual       = -.1753E-08  +/-  0.1058E-08  (  60.343 %)
accumulated results Virtual ratio = -.1941E+00  +/-  0.4123E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4832E-06  +/-  0.8381E-09  (   0.173 %)
accumulated results Born          = 0.1900E-05  +/-  0.2700E-08  (   0.142 %)
accumulated results V  2          = -.1753E-08  +/-  0.1058E-08  (  60.343 %)
accumulated results B  2          = 0.1900E-05  +/-  0.2700E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                     2                       3                         4
channel    1 :     1 T   203384    24013  0.3290E-06  0.1826E-06  0.9041E+00
channel    2 :     1 T   208321    24468  0.3349E-06  0.1976E-06  0.9357E+00
channel    3 :     2 T    73666     8219  0.1177E-06  0.6237E-07  0.9780E+00
channel    4 :     2 T    74502     8835  0.1213E-06  0.6746E-07  0.9000E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0288082142539960E-007  +/-   1.9220974557100338E-009
 Final result:   5.1009038371479517E-007  +/-   2.1646615114080659E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406208
   Stability unknown:                                          0
   Stable PS point:                                       406208
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406208
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406208
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.75008690    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.28100061    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.53664589    
 Time spent in Integrated_CT :    11.3365479    
 Time spent in Virtuals :    713.418274    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.7400913    
 Time spent in N1body_prefactor :   0.928465486    
 Time spent in Adding_alphas_pdf :    13.0190029    
 Time spent in Reweight_scale :    55.2612267    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.3078308    
 Time spent in Applying_cuts :    7.18950415    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    52.9789352    
 Time spent in Other_tasks :    30.4131470    
 Time spent in Total :    931.160828    
Time in seconds: 946



LOG file for integration channel /P0_uux_emep/all_G1_45, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6231
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          45
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 142065
  with seed                   49
 Ranmar initialization seeds         124        1084
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.425468D+04 0.425468D+04  1.00
 muF1, muF1_reference: 0.425468D+04 0.425468D+04  1.00
 muF2, muF2_reference: 0.425468D+04 0.425468D+04  1.00
 QES,  QES_reference:  0.425468D+04 0.425468D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4948230765187224E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4065885065122294E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4057181659484626E-005           OLP:   -1.4057181659484626E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3358489613927614E-006           OLP:   -5.3358489613925115E-006
  FINITE:
           OLP:   -9.3988134065049289E-004
           BORN:    4.0512220010275740E-003
  MOMENTA (Exyzm): 
           1   2413.7566970748571        0.0000000000000000        0.0000000000000000        2413.7566970748571        0.0000000000000000     
           2   2413.7566970748571       -0.0000000000000000       -0.0000000000000000       -2413.7566970748571        0.0000000000000000     
           3   2413.7566970748571       -1641.2163227055710       -1192.2656733111191        1308.1028013892910        0.0000000000000000     
           4   2413.7566970748571        1641.2163227055710        1192.2656733111191       -1308.1028013892910        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4057181659484626E-005           OLP:   -1.4057181659484626E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3358489613927614E-006           OLP:   -5.3358489613925115E-006
ABS integral  = 0.9039E-06  +/-  0.1879E-08  (   0.208 %)
Integral      = 0.5137E-06  +/-  0.2126E-08  (   0.414 %)
Virtual       = 0.1490E-08  +/-  0.1065E-08  (  71.487 %)
Virtual ratio = -.1934E+00  +/-  0.4130E-03  (   0.214 %)
ABS virtual   = 0.4844E-06  +/-  0.8460E-09  (   0.175 %)
Born          = 0.1902E-05  +/-  0.2715E-08  (   0.143 %)
V  2          = 0.1490E-08  +/-  0.1065E-08  (  71.487 %)
B  2          = 0.1902E-05  +/-  0.2715E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9039E-06  +/-  0.1879E-08  (   0.208 %)
accumulated results Integral      = 0.5137E-06  +/-  0.2126E-08  (   0.414 %)
accumulated results Virtual       = 0.1490E-08  +/-  0.1065E-08  (  71.487 %)
accumulated results Virtual ratio = -.1934E+00  +/-  0.4130E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4844E-06  +/-  0.8460E-09  (   0.175 %)
accumulated results Born          = 0.1902E-05  +/-  0.2715E-08  (   0.143 %)
accumulated results V  2          = 0.1490E-08  +/-  0.1065E-08  (  71.487 %)
accumulated results B  2          = 0.1902E-05  +/-  0.2715E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                     2                       3                         4
channel    1 :     1 T   204316    24013  0.3287E-06  0.1843E-06  0.1000E+01
channel    2 :     1 T   208179    24468  0.3382E-06  0.1998E-06  0.8929E+00
channel    3 :     2 T    73245     8219  0.1180E-06  0.6180E-07  0.9367E+00
channel    4 :     2 T    74133     8835  0.1190E-06  0.6784E-07  0.9607E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0385654226607300E-007  +/-   1.8789160802717382E-009
 Final result:   5.1374443238526455E-007  +/-   2.1255806341070892E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406034
   Stability unknown:                                          0
   Stable PS point:                                       406034
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406034
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406034
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.75042105    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.27624798    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.57997131    
 Time spent in Integrated_CT :    11.5650024    
 Time spent in Virtuals :    713.522522    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.8016043    
 Time spent in N1body_prefactor :   0.919286728    
 Time spent in Adding_alphas_pdf :    12.9980469    
 Time spent in Reweight_scale :    54.7583885    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.2868710    
 Time spent in Applying_cuts :    7.28691483    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    53.0953445    
 Time spent in Other_tasks :    30.4718018    
 Time spent in Total :    931.312378    
Time in seconds: 947



LOG file for integration channel /P0_uux_emep/all_G1_46, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6258
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          46
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 145222
  with seed                   49
 Ranmar initialization seeds         124        4241
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.435275D+04 0.435275D+04  1.00
 muF1, muF1_reference: 0.435275D+04 0.435275D+04  1.00
 muF2, muF2_reference: 0.435275D+04 0.435275D+04  1.00
 QES,  QES_reference:  0.435275D+04 0.435275D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4787458122797010E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4094352546776626E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4026379051852988E-005           OLP:   -1.4026379051852983E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3886188419236246E-006           OLP:   -5.3886188419235933E-006
  FINITE:
           OLP:   -9.3471980903685865E-004
           BORN:    4.0423448160591263E-003
  MOMENTA (Exyzm): 
           1   2403.8220704494947        0.0000000000000000        0.0000000000000000        2403.8220704494947        0.0000000000000000     
           2   2403.8220704494947       -0.0000000000000000       -0.0000000000000000       -2403.8220704494947        0.0000000000000000     
           3   2403.8220704494947       -1917.1593745946050       -645.59504334259327        1298.4866263445285        0.0000000000000000     
           4   2403.8220704494947        1917.1593745946050        645.59504334259327       -1298.4866263445285        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4026379051852988E-005           OLP:   -1.4026379051852983E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3886188419236255E-006           OLP:   -5.3886188419235933E-006
ABS integral  = 0.9005E-06  +/-  0.1853E-08  (   0.206 %)
Integral      = 0.5146E-06  +/-  0.2100E-08  (   0.408 %)
Virtual       = -.1403E-08  +/-  0.1056E-08  (  75.260 %)
Virtual ratio = -.1942E+00  +/-  0.4124E-03  (   0.212 %)
ABS virtual   = 0.4826E-06  +/-  0.8363E-09  (   0.173 %)
Born          = 0.1899E-05  +/-  0.2705E-08  (   0.142 %)
V  2          = -.1403E-08  +/-  0.1056E-08  (  75.260 %)
B  2          = 0.1899E-05  +/-  0.2705E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9005E-06  +/-  0.1853E-08  (   0.206 %)
accumulated results Integral      = 0.5146E-06  +/-  0.2100E-08  (   0.408 %)
accumulated results Virtual       = -.1403E-08  +/-  0.1056E-08  (  75.260 %)
accumulated results Virtual ratio = -.1942E+00  +/-  0.4124E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4826E-06  +/-  0.8363E-09  (   0.173 %)
accumulated results Born          = 0.1899E-05  +/-  0.2705E-08  (   0.142 %)
accumulated results V  2          = -.1403E-08  +/-  0.1056E-08  (  75.260 %)
accumulated results B  2          = 0.1899E-05  +/-  0.2705E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                     2                       3                         4
channel    1 :     1 T   204336    24013  0.3280E-06  0.1860E-06  0.9522E+00
channel    2 :     1 T   207930    24468  0.3334E-06  0.1985E-06  0.9508E+00
channel    3 :     2 T    72989     8219  0.1178E-06  0.6308E-07  0.1000E+01
channel    4 :     2 T    74616     8835  0.1212E-06  0.6709E-07  0.8972E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0047426015772400E-007  +/-   1.8533219105428542E-009
 Final result:   5.1461127467848095E-007  +/-   2.1000183428906583E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405996
   Stability unknown:                                          0
   Stable PS point:                                       405996
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405996
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405996
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.75886178    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.32114840    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.54453897    
 Time spent in Integrated_CT :    11.3232422    
 Time spent in Virtuals :    712.012817    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.7364540    
 Time spent in N1body_prefactor :   0.924904764    
 Time spent in Adding_alphas_pdf :    12.9746494    
 Time spent in Reweight_scale :    55.1579857    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    19.9996891    
 Time spent in Applying_cuts :    7.18283844    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    53.6025848    
 Time spent in Other_tasks :    30.4092407    
 Time spent in Total :    929.949036    
Time in seconds: 943



LOG file for integration channel /P0_uux_emep/all_G1_47, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        4987
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          47
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 148379
  with seed                   49
 Ranmar initialization seeds         124        7398
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.443194D+04 0.443194D+04  1.00
 muF1, muF1_reference: 0.443194D+04 0.443194D+04  1.00
 muF2, muF2_reference: 0.443194D+04 0.443194D+04  1.00
 QES,  QES_reference:  0.443194D+04 0.443194D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4660727190475312E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4101668476332372E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4213378950148119E-005           OLP:   -1.4213378950148107E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0628794070743185E-006           OLP:   -5.0628794070740381E-006
  FINITE:
           OLP:   -9.5168057032062547E-004
           BORN:    4.0962374184679460E-003
  MOMENTA (Exyzm): 
           1   2401.2768394281757        0.0000000000000000        0.0000000000000000        2401.2768394281757        0.0000000000000000     
           2   2401.2768394281757       -0.0000000000000000       -0.0000000000000000       -2401.2768394281757        0.0000000000000000     
           3   2401.2768394281757       -1694.3157750071468       -1070.5021153601094        1322.6676586148278        0.0000000000000000     
           4   2401.2768394281757        1694.3157750071468        1070.5021153601094       -1322.6676586148278        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4213378950148119E-005           OLP:   -1.4213378950148107E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0628794070743210E-006           OLP:   -5.0628794070740381E-006
 Error #15 in genps_fks.f  -1.0305084288120270E-006           4
ABS integral  = 0.9022E-06  +/-  0.1790E-08  (   0.198 %)
Integral      = 0.5134E-06  +/-  0.2046E-08  (   0.399 %)
Virtual       = -.1165E-08  +/-  0.1062E-08  (  91.191 %)
Virtual ratio = -.1943E+00  +/-  0.4124E-03  (   0.212 %)
ABS virtual   = 0.4840E-06  +/-  0.8429E-09  (   0.174 %)
Born          = 0.1901E-05  +/-  0.2716E-08  (   0.143 %)
V  2          = -.1165E-08  +/-  0.1062E-08  (  91.191 %)
B  2          = 0.1901E-05  +/-  0.2716E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9022E-06  +/-  0.1790E-08  (   0.198 %)
accumulated results Integral      = 0.5134E-06  +/-  0.2046E-08  (   0.399 %)
accumulated results Virtual       = -.1165E-08  +/-  0.1062E-08  (  91.191 %)
accumulated results Virtual ratio = -.1943E+00  +/-  0.4124E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4840E-06  +/-  0.8429E-09  (   0.174 %)
accumulated results Born          = 0.1901E-05  +/-  0.2716E-08  (   0.143 %)
accumulated results V  2          = -.1165E-08  +/-  0.1062E-08  (  91.191 %)
accumulated results B  2          = 0.1901E-05  +/-  0.2716E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   203734    24013  0.3272E-06  0.1835E-06  0.1000E+01
channel    2 :     1 T   208372    24468  0.3371E-06  0.1996E-06  0.9532E+00
channel    3 :     2 T    73263     8219  0.1178E-06  0.6244E-07  0.9990E+00
channel    4 :     2 T    74505     8835  0.1200E-06  0.6787E-07  0.9652E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0217256422332756E-007  +/-   1.7900208168840209E-009
 Final result:   5.1336978924498048E-007  +/-   2.0462641726294455E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405850
   Stability unknown:                                          0
   Stable PS point:                                       405850
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405850
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405850
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.71935606    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.19839668    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.56581688    
 Time spent in Integrated_CT :    11.1993408    
 Time spent in Virtuals :    691.664734    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.5315733    
 Time spent in N1body_prefactor :   0.848554015    
 Time spent in Adding_alphas_pdf :    12.5764532    
 Time spent in Reweight_scale :    52.7406158    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    19.7959442    
 Time spent in Applying_cuts :    7.06300116    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    51.4244919    
 Time spent in Other_tasks :    30.5494995    
 Time spent in Total :    903.877808    
Time in seconds: 917



LOG file for integration channel /P0_uux_emep/all_G1_48, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        4990
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          48
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 151536
  with seed                   49
 Ranmar initialization seeds         124       10555
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.436353D+04 0.436353D+04  1.00
 muF1, muF1_reference: 0.436353D+04 0.436353D+04  1.00
 muF2, muF2_reference: 0.436353D+04 0.436353D+04  1.00
 QES,  QES_reference:  0.436353D+04 0.436353D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4770041825543643E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4106891855129323E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4220710398816003E-005           OLP:   -1.4220710398816020E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0498355794152417E-006           OLP:   -5.0498355794152375E-006
  FINITE:
           OLP:   -9.5194724704430480E-004
           BORN:    4.0983503118531359E-003
  MOMENTA (Exyzm): 
           1   2399.4615819865703        0.0000000000000000        0.0000000000000000        2399.4615819865703        0.0000000000000000     
           2   2399.4615819865703       -0.0000000000000000       -0.0000000000000000       -2399.4615819865703        0.0000000000000000     
           3   2399.4615819865703       -1961.0776882906719       -402.67814511252237        1322.6641657528746        0.0000000000000000     
           4   2399.4615819865703        1961.0776882906719        402.67814511252237       -1322.6641657528746        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4220710398816003E-005           OLP:   -1.4220710398816020E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0498355794152460E-006           OLP:   -5.0498355794152375E-006
ABS integral  = 0.9020E-06  +/-  0.1773E-08  (   0.197 %)
Integral      = 0.5176E-06  +/-  0.2030E-08  (   0.392 %)
Virtual       = 0.7979E-09  +/-  0.1056E-08  ( 132.386 %)
Virtual ratio = -.1932E+00  +/-  0.4126E-03  (   0.214 %)
ABS virtual   = 0.4832E-06  +/-  0.8359E-09  (   0.173 %)
Born          = 0.1900E-05  +/-  0.2706E-08  (   0.142 %)
V  2          = 0.7979E-09  +/-  0.1056E-08  ( 132.386 %)
B  2          = 0.1900E-05  +/-  0.2706E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9020E-06  +/-  0.1773E-08  (   0.197 %)
accumulated results Integral      = 0.5176E-06  +/-  0.2030E-08  (   0.392 %)
accumulated results Virtual       = 0.7979E-09  +/-  0.1056E-08  ( 132.386 %)
accumulated results Virtual ratio = -.1932E+00  +/-  0.4126E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4832E-06  +/-  0.8359E-09  (   0.173 %)
accumulated results Born          = 0.1900E-05  +/-  0.2706E-08  (   0.142 %)
accumulated results V  2          = 0.7979E-09  +/-  0.1056E-08  ( 132.386 %)
accumulated results B  2          = 0.1900E-05  +/-  0.2706E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   204056    24013  0.3286E-06  0.1869E-06  0.1000E+01
channel    2 :     1 T   208502    24468  0.3371E-06  0.2011E-06  0.9411E+00
channel    3 :     2 T    73015     8219  0.1178E-06  0.6198E-07  0.9850E+00
channel    4 :     2 T    74301     8835  0.1185E-06  0.6763E-07  0.9663E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0199804253210419E-007  +/-   1.7733282681254789E-009
 Final result:   5.1764047082851340E-007  +/-   2.0296031112690494E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405848
   Stability unknown:                                          0
   Stable PS point:                                       405848
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405848
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405848
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.70500040    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.19578075    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.50668049    
 Time spent in Integrated_CT :    11.1118164    
 Time spent in Virtuals :    691.891418    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.4508877    
 Time spent in N1body_prefactor :   0.853116930    
 Time spent in Adding_alphas_pdf :    12.6770878    
 Time spent in Reweight_scale :    53.2789230    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    19.5570183    
 Time spent in Applying_cuts :    7.00209093    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    51.1000061    
 Time spent in Other_tasks :    30.2886963    
 Time spent in Total :    903.618408    
Time in seconds: 917



LOG file for integration channel /P0_uux_emep/all_G1_49, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        4989
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          49
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 154693
  with seed                   49
 Ranmar initialization seeds         124       13712
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.413879D+04 0.413879D+04  1.00
 muF1, muF1_reference: 0.413879D+04 0.413879D+04  1.00
 muF2, muF2_reference: 0.413879D+04 0.413879D+04  1.00
 QES,  QES_reference:  0.413879D+04 0.413879D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5143967328845457E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4114635722926439E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4160988537557025E-005           OLP:   -1.4160988537557004E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1555791607568121E-006           OLP:   -5.1555791607571890E-006
  FINITE:
           OLP:   -9.4571517129980623E-004
           BORN:    4.0811387168026127E-003
  MOMENTA (Exyzm): 
           1   2396.7734061576843        0.0000000000000000        0.0000000000000000        2396.7734061576843        0.0000000000000000     
           2   2396.7734061576843       -0.0000000000000000       -0.0000000000000000       -2396.7734061576843        0.0000000000000000     
           3   2396.7734061576843       -1146.4881932107155       -1644.9817195810685        1313.0585385036143        0.0000000000000000     
           4   2396.7734061576843        1146.4881932107155        1644.9817195810685       -1313.0585385036143        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4160988537557025E-005           OLP:   -1.4160988537557004E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1555791607568121E-006           OLP:   -5.1555791607571890E-006
ABS integral  = 0.9043E-06  +/-  0.1958E-08  (   0.216 %)
Integral      = 0.5173E-06  +/-  0.2194E-08  (   0.424 %)
Virtual       = 0.1251E-08  +/-  0.1061E-08  (  84.795 %)
Virtual ratio = -.1937E+00  +/-  0.4126E-03  (   0.213 %)
ABS virtual   = 0.4840E-06  +/-  0.8411E-09  (   0.174 %)
Born          = 0.1902E-05  +/-  0.2713E-08  (   0.143 %)
V  2          = 0.1251E-08  +/-  0.1061E-08  (  84.795 %)
B  2          = 0.1902E-05  +/-  0.2713E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9043E-06  +/-  0.1958E-08  (   0.216 %)
accumulated results Integral      = 0.5173E-06  +/-  0.2194E-08  (   0.424 %)
accumulated results Virtual       = 0.1251E-08  +/-  0.1061E-08  (  84.795 %)
accumulated results Virtual ratio = -.1937E+00  +/-  0.4126E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4840E-06  +/-  0.8411E-09  (   0.174 %)
accumulated results Born          = 0.1902E-05  +/-  0.2713E-08  (   0.143 %)
accumulated results V  2          = 0.1251E-08  +/-  0.1061E-08  (  84.795 %)
accumulated results B  2          = 0.1902E-05  +/-  0.2713E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   203455    24013  0.3287E-06  0.1861E-06  0.9284E+00
channel    2 :     1 T   208454    24468  0.3374E-06  0.2004E-06  0.8551E+00
channel    3 :     2 T    73639     8219  0.1187E-06  0.6304E-07  0.1000E+01
channel    4 :     2 T    74318     8835  0.1196E-06  0.6769E-07  0.9665E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0433518399436862E-007  +/-   1.9575813703863027E-009
 Final result:   5.1731299650338875E-007  +/-   2.1942803407380704E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406036
   Stability unknown:                                          0
   Stable PS point:                                       406036
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406036
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406036
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.71335673    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.27223444    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.66755390    
 Time spent in Integrated_CT :    11.1813965    
 Time spent in Virtuals :    687.620117    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.4821577    
 Time spent in N1body_prefactor :   0.864380658    
 Time spent in Adding_alphas_pdf :    12.6491632    
 Time spent in Reweight_scale :    52.6876755    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    19.7802219    
 Time spent in Applying_cuts :    7.09133053    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    51.4408455    
 Time spent in Other_tasks :    30.0004883    
 Time spent in Total :    899.450928    
Time in seconds: 912



LOG file for integration channel /P0_uux_emep/all_G1_50, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        4988
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          50
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 157850
  with seed                   49
 Ranmar initialization seeds         124       16869
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.431263D+04 0.431263D+04  1.00
 muF1, muF1_reference: 0.431263D+04 0.431263D+04  1.00
 muF2, muF2_reference: 0.431263D+04 0.431263D+04  1.00
 QES,  QES_reference:  0.431263D+04 0.431263D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4852707204229874E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4073253656440310E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4162843278835367E-005           OLP:   -1.4162843278835349E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1522210297685786E-006           OLP:   -5.1522210297678162E-006
  FINITE:
           OLP:   -9.4922281754239511E-004
           BORN:    4.0816732456189185E-003
  MOMENTA (Exyzm): 
           1   2411.1804980668812        0.0000000000000000        0.0000000000000000        2411.1804980668812        0.0000000000000000     
           2   2411.1804980668812       -0.0000000000000000       -0.0000000000000000       -2411.1804980668812        0.0000000000000000     
           3   2411.1804980668812       -1051.5336466878834       -1721.1821812398446        1321.2116723386098        0.0000000000000000     
           4   2411.1804980668812        1051.5336466878834        1721.1821812398446       -1321.2116723386098        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4162843278835367E-005           OLP:   -1.4162843278835349E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1522210297685752E-006           OLP:   -5.1522210297678162E-006
ABS integral  = 0.9004E-06  +/-  0.1790E-08  (   0.199 %)
Integral      = 0.5140E-06  +/-  0.2044E-08  (   0.398 %)
Virtual       = -.5279E-09  +/-  0.1062E-08  ( 201.173 %)
Virtual ratio = -.1939E+00  +/-  0.4124E-03  (   0.213 %)
ABS virtual   = 0.4837E-06  +/-  0.8427E-09  (   0.174 %)
Born          = 0.1901E-05  +/-  0.2713E-08  (   0.143 %)
V  2          = -.5279E-09  +/-  0.1062E-08  ( 201.173 %)
B  2          = 0.1901E-05  +/-  0.2713E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9004E-06  +/-  0.1790E-08  (   0.199 %)
accumulated results Integral      = 0.5140E-06  +/-  0.2044E-08  (   0.398 %)
accumulated results Virtual       = -.5279E-09  +/-  0.1062E-08  ( 201.173 %)
accumulated results Virtual ratio = -.1939E+00  +/-  0.4124E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4837E-06  +/-  0.8427E-09  (   0.174 %)
accumulated results Born          = 0.1901E-05  +/-  0.2713E-08  (   0.143 %)
accumulated results V  2          = -.5279E-09  +/-  0.1062E-08  ( 201.173 %)
accumulated results B  2          = 0.1901E-05  +/-  0.2713E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                   2                        3                         4
channel    1 :     1 T   203721    24013  0.3279E-06  0.1854E-06  0.1000E+01
channel    2 :     1 T   208040    24468  0.3352E-06  0.1995E-06  0.9596E+00
channel    3 :     2 T    73513     8219  0.1175E-06  0.6238E-07  0.9770E+00
channel    4 :     2 T    74594     8835  0.1199E-06  0.6664E-07  0.9421E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0039483395914823E-007  +/-   1.7898403913150335E-009
 Final result:   5.1396830368318986E-007  +/-   2.0444386342210856E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406012
   Stability unknown:                                          0
   Stable PS point:                                       406012
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406012
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406012
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.69144762    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.21452141    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.52442360    
 Time spent in Integrated_CT :    11.1563721    
 Time spent in Virtuals :    685.415894    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.5014868    
 Time spent in N1body_prefactor :   0.851020932    
 Time spent in Adding_alphas_pdf :    12.4711533    
 Time spent in Reweight_scale :    52.1107941    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    19.5086441    
 Time spent in Applying_cuts :    6.93878078    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    51.9097748    
 Time spent in Other_tasks :    29.9747314    
 Time spent in Total :    896.269043    
Time in seconds: 908



LOG file for integration channel /P0_uux_emep/all_G1_51, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        5010
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          51
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 161007
  with seed                   49
 Ranmar initialization seeds         124       20026
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.433897D+04 0.433897D+04  1.00
 muF1, muF1_reference: 0.433897D+04 0.433897D+04  1.00
 muF2, muF2_reference: 0.433897D+04 0.433897D+04  1.00
 QES,  QES_reference:  0.433897D+04 0.433897D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4809779783631264E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4126382687570200E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4044949016869890E-005           OLP:   -1.4044949016869893E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3569621187649450E-006           OLP:   -5.3569621187650212E-006
  FINITE:
           OLP:   -9.3390790937943253E-004
           BORN:    4.0476966036832145E-003
  MOMENTA (Exyzm): 
           1   2392.7024764948346        0.0000000000000000        0.0000000000000000        2392.7024764948346        0.0000000000000000     
           2   2392.7024764948346       -0.0000000000000000       -0.0000000000000000       -2392.7024764948346        0.0000000000000000     
           3   2392.7024764948346       -1637.0421333893401       -1169.6406279998980        1295.0131257499270        0.0000000000000000     
           4   2392.7024764948346        1637.0421333893401        1169.6406279998980       -1295.0131257499270        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4044949016869890E-005           OLP:   -1.4044949016869893E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3569621187649459E-006           OLP:   -5.3569621187650212E-006
ABS integral  = 0.9013E-06  +/-  0.1835E-08  (   0.204 %)
Integral      = 0.5126E-06  +/-  0.2085E-08  (   0.407 %)
Virtual       = -.1538E-08  +/-  0.1060E-08  (  68.960 %)
Virtual ratio = -.1943E+00  +/-  0.4127E-03  (   0.212 %)
ABS virtual   = 0.4835E-06  +/-  0.8406E-09  (   0.174 %)
Born          = 0.1900E-05  +/-  0.2699E-08  (   0.142 %)
V  2          = -.1538E-08  +/-  0.1060E-08  (  68.960 %)
B  2          = 0.1900E-05  +/-  0.2699E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9013E-06  +/-  0.1835E-08  (   0.204 %)
accumulated results Integral      = 0.5126E-06  +/-  0.2085E-08  (   0.407 %)
accumulated results Virtual       = -.1538E-08  +/-  0.1060E-08  (  68.960 %)
accumulated results Virtual ratio = -.1943E+00  +/-  0.4127E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4835E-06  +/-  0.8406E-09  (   0.174 %)
accumulated results Born          = 0.1900E-05  +/-  0.2699E-08  (   0.142 %)
accumulated results V  2          = -.1538E-08  +/-  0.1060E-08  (  68.960 %)
accumulated results B  2          = 0.1900E-05  +/-  0.2699E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   203197    24013  0.3297E-06  0.1839E-06  0.9647E+00
channel    2 :     1 T   208875    24468  0.3351E-06  0.2000E-06  0.9597E+00
channel    3 :     2 T    73142     8219  0.1168E-06  0.6289E-07  0.9810E+00
channel    4 :     2 T    74660     8835  0.1197E-06  0.6578E-07  0.9344E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0133751524643225E-007  +/-   1.8350540008935104E-009
 Final result:   5.1256015880670494E-007  +/-   2.0854830104874134E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406131
   Stability unknown:                                          0
   Stable PS point:                                       406131
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406131
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406131
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.77053523    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.35822535    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.64027596    
 Time spent in Integrated_CT :    11.5034180    
 Time spent in Virtuals :    713.401245    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.8483667    
 Time spent in N1body_prefactor :   0.918870091    
 Time spent in Adding_alphas_pdf :    12.9921684    
 Time spent in Reweight_scale :    56.4242859    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.2219009    
 Time spent in Applying_cuts :    7.34876347    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    52.8710136    
 Time spent in Other_tasks :    30.9650879    
 Time spent in Total :    933.264221    
Time in seconds: 951



LOG file for integration channel /P0_uux_emep/all_G1_52, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        4997
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          52
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 164164
  with seed                   49
 Ranmar initialization seeds         124       23183
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.411560D+04 0.411560D+04  1.00
 muF1, muF1_reference: 0.411560D+04 0.411560D+04  1.00
 muF2, muF2_reference: 0.411560D+04 0.411560D+04  1.00
 QES,  QES_reference:  0.411560D+04 0.411560D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5183899597041012E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4054063923368246E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4225053608410251E-005           OLP:   -1.4225053608410241E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0419668547333107E-006           OLP:   -5.0419668547318471E-006
  FINITE:
           OLP:   -9.5663738596270492E-004
           BORN:    4.0996020070143361E-003
  MOMENTA (Exyzm): 
           1   2417.8964623318220        0.0000000000000000        0.0000000000000000        2417.8964623318220        0.0000000000000000     
           2   2417.8964623318220       -0.0000000000000000       -0.0000000000000000       -2417.8964623318220        0.0000000000000000     
           3   2417.8964623318220       -1561.7136775966089       -1276.4170049941968        1333.4291586455047        0.0000000000000000     
           4   2417.8964623318220        1561.7136775966089        1276.4170049941968       -1333.4291586455047        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4225053608410251E-005           OLP:   -1.4225053608410241E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0419668547333116E-006           OLP:   -5.0419668547318471E-006
ABS integral  = 0.9027E-06  +/-  0.1861E-08  (   0.206 %)
Integral      = 0.5171E-06  +/-  0.2107E-08  (   0.407 %)
Virtual       = 0.1305E-08  +/-  0.1063E-08  (  81.489 %)
Virtual ratio = -.1933E+00  +/-  0.4126E-03  (   0.213 %)
ABS virtual   = 0.4842E-06  +/-  0.8438E-09  (   0.174 %)
Born          = 0.1901E-05  +/-  0.2719E-08  (   0.143 %)
V  2          = 0.1305E-08  +/-  0.1063E-08  (  81.489 %)
B  2          = 0.1901E-05  +/-  0.2719E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9027E-06  +/-  0.1861E-08  (   0.206 %)
accumulated results Integral      = 0.5171E-06  +/-  0.2107E-08  (   0.407 %)
accumulated results Virtual       = 0.1305E-08  +/-  0.1063E-08  (  81.489 %)
accumulated results Virtual ratio = -.1933E+00  +/-  0.4126E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4842E-06  +/-  0.8438E-09  (   0.174 %)
accumulated results Born          = 0.1901E-05  +/-  0.2719E-08  (   0.143 %)
accumulated results V  2          = 0.1305E-08  +/-  0.1063E-08  (  81.489 %)
accumulated results B  2          = 0.1901E-05  +/-  0.2719E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   203786    24013  0.3299E-06  0.1852E-06  0.9881E+00
channel    2 :     1 T   208366    24468  0.3357E-06  0.2003E-06  0.9392E+00
channel    3 :     2 T    73413     8219  0.1169E-06  0.6354E-07  0.1000E+01
channel    4 :     2 T    74312     8835  0.1201E-06  0.6808E-07  0.8532E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0265542726700177E-007  +/-   1.8605465043948285E-009
 Final result:   5.1712948039451649E-007  +/-   2.1069628219172248E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405986
   Stability unknown:                                          0
   Stable PS point:                                       405986
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405986
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405986
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.75498009    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.25828648    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.56546211    
 Time spent in Integrated_CT :    11.5257568    
 Time spent in Virtuals :    712.389587    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.9009438    
 Time spent in N1body_prefactor :   0.900522709    
 Time spent in Adding_alphas_pdf :    12.7823639    
 Time spent in Reweight_scale :    54.5967941    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.6360035    
 Time spent in Applying_cuts :    7.25485802    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    52.9441147    
 Time spent in Other_tasks :    30.8313599    
 Time spent in Total :    930.341003    
Time in seconds: 947



LOG file for integration channel /P0_uux_emep/all_G1_53, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        5009
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          53
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 167321
  with seed                   49
 Ranmar initialization seeds         124       26340
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.446008D+04 0.446008D+04  1.00
 muF1, muF1_reference: 0.446008D+04 0.446008D+04  1.00
 muF2, muF2_reference: 0.446008D+04 0.446008D+04  1.00
 QES,  QES_reference:  0.446008D+04 0.446008D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4616338083171446E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4050380674112876E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4054317425075719E-005           OLP:   -1.4054317425075716E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3407306588478812E-006           OLP:   -5.3407306588424611E-006
  FINITE:
           OLP:   -9.4085296596408189E-004
           BORN:    4.0503965404384929E-003
  MOMENTA (Exyzm): 
           1   2419.1880687751541        0.0000000000000000        0.0000000000000000        2419.1880687751541        0.0000000000000000     
           2   2419.1880687751541       -0.0000000000000000       -0.0000000000000000       -2419.1880687751541        0.0000000000000000     
           3   2419.1880687751541       -1483.2288067699481       -1390.9319124652275        1310.6531325097728        0.0000000000000000     
           4   2419.1880687751541        1483.2288067699481        1390.9319124652275       -1310.6531325097728        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4054317425075719E-005           OLP:   -1.4054317425075716E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3407306588478846E-006           OLP:   -5.3407306588424611E-006
ABS integral  = 0.9023E-06  +/-  0.1890E-08  (   0.209 %)
Integral      = 0.5128E-06  +/-  0.2134E-08  (   0.416 %)
Virtual       = -.4550E-09  +/-  0.1064E-08  ( 233.907 %)
Virtual ratio = -.1937E+00  +/-  0.4127E-03  (   0.213 %)
ABS virtual   = 0.4840E-06  +/-  0.8451E-09  (   0.175 %)
Born          = 0.1900E-05  +/-  0.2720E-08  (   0.143 %)
V  2          = -.4550E-09  +/-  0.1064E-08  ( 233.907 %)
B  2          = 0.1900E-05  +/-  0.2720E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9023E-06  +/-  0.1890E-08  (   0.209 %)
accumulated results Integral      = 0.5128E-06  +/-  0.2134E-08  (   0.416 %)
accumulated results Virtual       = -.4550E-09  +/-  0.1064E-08  ( 233.907 %)
accumulated results Virtual ratio = -.1937E+00  +/-  0.4127E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4840E-06  +/-  0.8451E-09  (   0.175 %)
accumulated results Born          = 0.1900E-05  +/-  0.2720E-08  (   0.143 %)
accumulated results V  2          = -.4550E-09  +/-  0.1064E-08  ( 233.907 %)
accumulated results B  2          = 0.1900E-05  +/-  0.2720E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   203450    24013  0.3282E-06  0.1832E-06  0.9978E+00
channel    2 :     1 T   208957    24468  0.3369E-06  0.2008E-06  0.9422E+00
channel    3 :     2 T    73078     8219  0.1164E-06  0.6212E-07  0.9658E+00
channel    4 :     2 T    74388     8835  0.1208E-06  0.6661E-07  0.8188E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0228659001852046E-007  +/-   1.8898438805430007E-009
 Final result:   5.1276372452197633E-007  +/-   2.1344813728696347E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406049
   Stability unknown:                                          0
   Stable PS point:                                       406049
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406049
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406049
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.75613725    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.38258648    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.68414116    
 Time spent in Integrated_CT :    11.5319214    
 Time spent in Virtuals :    713.794373    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.9539185    
 Time spent in N1body_prefactor :   0.895435691    
 Time spent in Adding_alphas_pdf :    12.9210434    
 Time spent in Reweight_scale :    55.0970001    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.4961166    
 Time spent in Applying_cuts :    7.49248695    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    53.0632324    
 Time spent in Other_tasks :    31.3107910    
 Time spent in Total :    933.379150    
Time in seconds: 951



LOG file for integration channel /P0_uux_emep/all_G1_54, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        4996
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          54
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 170478
  with seed                   49
 Ranmar initialization seeds         124       29497
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.436855D+04 0.436855D+04  1.00
 muF1, muF1_reference: 0.436855D+04 0.436855D+04  1.00
 muF2, muF2_reference: 0.436855D+04 0.436855D+04  1.00
 QES,  QES_reference:  0.436855D+04 0.436855D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4761947841516865E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4108639735344817E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4144750359475950E-005           OLP:   -1.4144750359475945E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1840642744867744E-006           OLP:   -5.1840642744866685E-006
  FINITE:
           OLP:   -9.4467386774818433E-004
           BORN:    4.0764589405933990E-003
  MOMENTA (Exyzm): 
           1   2398.8545151007620        0.0000000000000000        0.0000000000000000        2398.8545151007620        0.0000000000000000     
           2   2398.8545151007620       -0.0000000000000000       -0.0000000000000000       -2398.8545151007620        0.0000000000000000     
           3   2398.8545151007620       -1544.9229278131475       -1283.1250352704326        1311.9856232439499        0.0000000000000000     
           4   2398.8545151007620        1544.9229278131475        1283.1250352704326       -1311.9856232439499        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4144750359475950E-005           OLP:   -1.4144750359475945E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1840642744867744E-006           OLP:   -5.1840642744866685E-006
ABS integral  = 0.9021E-06  +/-  0.1831E-08  (   0.203 %)
Integral      = 0.5172E-06  +/-  0.2080E-08  (   0.402 %)
Virtual       = 0.1733E-08  +/-  0.1056E-08  (  60.944 %)
Virtual ratio = -.1936E+00  +/-  0.4125E-03  (   0.213 %)
ABS virtual   = 0.4835E-06  +/-  0.8357E-09  (   0.173 %)
Born          = 0.1900E-05  +/-  0.2695E-08  (   0.142 %)
V  2          = 0.1733E-08  +/-  0.1056E-08  (  60.944 %)
B  2          = 0.1900E-05  +/-  0.2695E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9021E-06  +/-  0.1831E-08  (   0.203 %)
accumulated results Integral      = 0.5172E-06  +/-  0.2080E-08  (   0.402 %)
accumulated results Virtual       = 0.1733E-08  +/-  0.1056E-08  (  60.944 %)
accumulated results Virtual ratio = -.1936E+00  +/-  0.4125E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4835E-06  +/-  0.8357E-09  (   0.173 %)
accumulated results Born          = 0.1900E-05  +/-  0.2695E-08  (   0.142 %)
accumulated results V  2          = 0.1733E-08  +/-  0.1056E-08  (  60.944 %)
accumulated results B  2          = 0.1900E-05  +/-  0.2695E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   203693    24013  0.3288E-06  0.1876E-06  0.1000E+01
channel    2 :     1 T   207975    24468  0.3346E-06  0.1989E-06  0.8865E+00
channel    3 :     2 T    73178     8219  0.1171E-06  0.6179E-07  0.1000E+01
channel    4 :     2 T    75022     8835  0.1216E-06  0.6892E-07  0.9718E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0205792682781701E-007  +/-   1.8307897370149743E-009
 Final result:   5.1722824143683104E-007  +/-   2.0802263417094554E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406460
   Stability unknown:                                          0
   Stable PS point:                                       406460
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406460
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406460
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.83485770    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.37141514    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.59011889    
 Time spent in Integrated_CT :    11.4785156    
 Time spent in Virtuals :    714.874390    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.9622660    
 Time spent in N1body_prefactor :   0.911098957    
 Time spent in Adding_alphas_pdf :    12.8789711    
 Time spent in Reweight_scale :    54.5817871    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.2336235    
 Time spent in Applying_cuts :    7.24975967    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    52.9884872    
 Time spent in Other_tasks :    30.8408813    
 Time spent in Total :    932.796143    
Time in seconds: 951



LOG file for integration channel /P0_uux_emep/all_G1_55, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        5005
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          55
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 173635
  with seed                   49
 Ranmar initialization seeds         124        2573
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.433460D+04 0.433460D+04  1.00
 muF1, muF1_reference: 0.433460D+04 0.433460D+04  1.00
 muF2, muF2_reference: 0.433460D+04 0.433460D+04  1.00
 QES,  QES_reference:  0.433460D+04 0.433460D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4816882054962189E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4107619635500055E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4126716523763191E-005           OLP:   -1.4126716523763194E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2155892184274570E-006           OLP:   -5.2155892184274579E-006
  FINITE:
           OLP:   -9.4306417394428126E-004
           BORN:    4.0712616632321043E-003
  MOMENTA (Exyzm): 
           1   2399.2087898717768        0.0000000000000000        0.0000000000000000        2399.2087898717768        0.0000000000000000     
           2   2399.2087898717768       -0.0000000000000000       -0.0000000000000000       -2399.2087898717768        0.0000000000000000     
           3   2399.2087898717768       -1811.4255113124302       -871.53742585558780        1309.7186528783623        0.0000000000000000     
           4   2399.2087898717768        1811.4255113124302        871.53742585558780       -1309.7186528783623        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4126716523763191E-005           OLP:   -1.4126716523763194E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2155892184274570E-006           OLP:   -5.2155892184274579E-006
 Error #15 in genps_fks.f  -1.0734656825661659E-006           3
ABS integral  = 0.9036E-06  +/-  0.1793E-08  (   0.198 %)
Integral      = 0.5166E-06  +/-  0.2048E-08  (   0.396 %)
Virtual       = -.1544E-08  +/-  0.1059E-08  (  68.596 %)
Virtual ratio = -.1937E+00  +/-  0.4120E-03  (   0.213 %)
ABS virtual   = 0.4837E-06  +/-  0.8392E-09  (   0.174 %)
Born          = 0.1901E-05  +/-  0.2710E-08  (   0.143 %)
V  2          = -.1544E-08  +/-  0.1059E-08  (  68.596 %)
B  2          = 0.1901E-05  +/-  0.2710E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9036E-06  +/-  0.1793E-08  (   0.198 %)
accumulated results Integral      = 0.5166E-06  +/-  0.2048E-08  (   0.396 %)
accumulated results Virtual       = -.1544E-08  +/-  0.1059E-08  (  68.596 %)
accumulated results Virtual ratio = -.1937E+00  +/-  0.4120E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4837E-06  +/-  0.8392E-09  (   0.174 %)
accumulated results Born          = 0.1901E-05  +/-  0.2710E-08  (   0.143 %)
accumulated results V  2          = -.1544E-08  +/-  0.1059E-08  (  68.596 %)
accumulated results B  2          = 0.1901E-05  +/-  0.2710E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   204354    24013  0.3291E-06  0.1859E-06  0.1000E+01
channel    2 :     1 T   208159    24468  0.3380E-06  0.2014E-06  0.9295E+00
channel    3 :     2 T    73174     8219  0.1170E-06  0.6193E-07  0.1000E+01
channel    4 :     2 T    74185     8835  0.1195E-06  0.6744E-07  0.9535E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0362777945530476E-007  +/-   1.7927001728350213E-009
 Final result:   5.1663921872535234E-007  +/-   2.0482859248080864E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406038
   Stability unknown:                                          0
   Stable PS point:                                       406038
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406038
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406038
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.74876297    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.35191488    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.61891413    
 Time spent in Integrated_CT :    11.4706421    
 Time spent in Virtuals :    715.174500    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.8898277    
 Time spent in N1body_prefactor :   0.903104067    
 Time spent in Adding_alphas_pdf :    12.7708197    
 Time spent in Reweight_scale :    54.0902939    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.2694206    
 Time spent in Applying_cuts :    7.22864723    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    53.4137688    
 Time spent in Other_tasks :    31.1533813    
 Time spent in Total :    933.083923    
Time in seconds: 951



LOG file for integration channel /P0_uux_emep/all_G1_56, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        5007
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          56
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 176792
  with seed                   49
 Ranmar initialization seeds         124        5730
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.436126D+04 0.436126D+04  1.00
 muF1, muF1_reference: 0.436126D+04 0.436126D+04  1.00
 muF2, muF2_reference: 0.436126D+04 0.436126D+04  1.00
 QES,  QES_reference:  0.436126D+04 0.436126D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4773703307487088E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4096760289688091E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4144879016456624E-005           OLP:   -1.4144879016456622E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1838112969804878E-006           OLP:   -5.1838112969804963E-006
  FINITE:
           OLP:   -9.4564090046675561E-004
           BORN:    4.0764960190066485E-003
  MOMENTA (Exyzm): 
           1   2402.9840547720928        0.0000000000000000        0.0000000000000000        2402.9840547720928        0.0000000000000000     
           2   2402.9840547720928       -0.0000000000000000       -0.0000000000000000       -2402.9840547720928        0.0000000000000000     
           3   2402.9840547720928       -1962.1784390048608       -443.73365248824012        1314.2635149173177        0.0000000000000000     
           4   2402.9840547720928        1962.1784390048608        443.73365248824012       -1314.2635149173177        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4144879016456624E-005           OLP:   -1.4144879016456622E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1838112969804912E-006           OLP:   -5.1838112969804963E-006
ABS integral  = 0.9030E-06  +/-  0.1799E-08  (   0.199 %)
Integral      = 0.5167E-06  +/-  0.2053E-08  (   0.397 %)
Virtual       = 0.1683E-09  +/-  0.1058E-08  ( 628.516 %)
Virtual ratio = -.1935E+00  +/-  0.4127E-03  (   0.213 %)
ABS virtual   = 0.4839E-06  +/-  0.8372E-09  (   0.173 %)
Born          = 0.1901E-05  +/-  0.2700E-08  (   0.142 %)
V  2          = 0.1683E-09  +/-  0.1058E-08  ( 628.516 %)
B  2          = 0.1901E-05  +/-  0.2700E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9030E-06  +/-  0.1799E-08  (   0.199 %)
accumulated results Integral      = 0.5167E-06  +/-  0.2053E-08  (   0.397 %)
accumulated results Virtual       = 0.1683E-09  +/-  0.1058E-08  ( 628.516 %)
accumulated results Virtual ratio = -.1935E+00  +/-  0.4127E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4839E-06  +/-  0.8372E-09  (   0.173 %)
accumulated results Born          = 0.1901E-05  +/-  0.2700E-08  (   0.142 %)
accumulated results V  2          = 0.1683E-09  +/-  0.1058E-08  ( 628.516 %)
accumulated results B  2          = 0.1901E-05  +/-  0.2700E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   203363    24013  0.3271E-06  0.1860E-06  0.1000E+01
channel    2 :     1 T   208850    24468  0.3377E-06  0.2008E-06  0.9499E+00
channel    3 :     2 T    73118     8219  0.1174E-06  0.6249E-07  0.9819E+00
channel    4 :     2 T    74540     8835  0.1207E-06  0.6736E-07  0.9482E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0298416374368626E-007  +/-   1.7988033209448941E-009
 Final result:   5.1666369676977400E-007  +/-   2.0531129272446934E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406346
   Stability unknown:                                          0
   Stable PS point:                                       406346
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406346
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406346
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.80193019    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.35605478    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.63034058    
 Time spent in Integrated_CT :    11.5764771    
 Time spent in Virtuals :    716.201904    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.8780041    
 Time spent in N1body_prefactor :   0.912252188    
 Time spent in Adding_alphas_pdf :    12.8286867    
 Time spent in Reweight_scale :    54.2760544    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.2970676    
 Time spent in Applying_cuts :    7.32639933    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    53.4231682    
 Time spent in Other_tasks :    30.8436890    
 Time spent in Total :    934.351990    
Time in seconds: 952



LOG file for integration channel /P0_uux_emep/all_G1_57, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        4991
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          57
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 179949
  with seed                   49
 Ranmar initialization seeds         124        8887
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.419724D+04 0.419724D+04  1.00
 muF1, muF1_reference: 0.419724D+04 0.419724D+04  1.00
 muF2, muF2_reference: 0.419724D+04 0.419724D+04  1.00
 QES,  QES_reference:  0.419724D+04 0.419724D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5044446715616164E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4053788917894034E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4272378548704876E-005           OLP:   -1.4272378548704883E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9570802825911119E-006           OLP:   -4.9570802825920809E-006
  FINITE:
           OLP:   -9.6112699322213418E-004
           BORN:    4.1132408603750696E-003
  MOMENTA (Exyzm): 
           1   2417.9928701567537        0.0000000000000000        0.0000000000000000        2417.9928701567537        0.0000000000000000     
           2   2417.9928701567537       -0.0000000000000000       -0.0000000000000000       -2417.9928701567537        0.0000000000000000     
           3   2417.9928701567537       -1602.1889907802677       -1218.2717954563745        1339.9603689463747        0.0000000000000000     
           4   2417.9928701567537        1602.1889907802677        1218.2717954563745       -1339.9603689463747        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4272378548704876E-005           OLP:   -1.4272378548704883E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9570802825911127E-006           OLP:   -4.9570802825920809E-006
 Error #15 in genps_fks.f  -1.0281801223754883E-006           3
ABS integral  = 0.9052E-06  +/-  0.1991E-08  (   0.220 %)
Integral      = 0.5126E-06  +/-  0.2227E-08  (   0.434 %)
Virtual       = 0.8298E-10  +/-  0.1068E-08  ( ******* %)
Virtual ratio = -.1938E+00  +/-  0.4121E-03  (   0.213 %)
ABS virtual   = 0.4852E-06  +/-  0.8486E-09  (   0.175 %)
Born          = 0.1904E-05  +/-  0.2718E-08  (   0.143 %)
V  2          = 0.8298E-10  +/-  0.1068E-08  ( ******* %)
B  2          = 0.1904E-05  +/-  0.2718E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9052E-06  +/-  0.1991E-08  (   0.220 %)
accumulated results Integral      = 0.5126E-06  +/-  0.2227E-08  (   0.434 %)
accumulated results Virtual       = 0.8298E-10  +/-  0.1068E-08  ( ******* %)
accumulated results Virtual ratio = -.1938E+00  +/-  0.4121E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4852E-06  +/-  0.8486E-09  (   0.175 %)
accumulated results Born          = 0.1904E-05  +/-  0.2718E-08  (   0.143 %)
accumulated results V  2          = 0.8298E-10  +/-  0.1068E-08  ( ******* %)
accumulated results B  2          = 0.1904E-05  +/-  0.2718E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                     2                       3                         4
channel    1 :     1 T   203758    24013  0.3265E-06  0.1832E-06  0.1000E+01
channel    2 :     1 T   208466    24468  0.3385E-06  0.2002E-06  0.8027E+00
channel    3 :     2 T    73115     8219  0.1188E-06  0.6204E-07  0.9699E+00
channel    4 :     2 T    74534     8835  0.1214E-06  0.6713E-07  0.9398E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0522248703235790E-007  +/-   1.9913355188359875E-009
 Final result:   5.1263847596710759E-007  +/-   2.2270217162840762E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406537
   Stability unknown:                                          0
   Stable PS point:                                       406537
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406537
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406537
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.76211047    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.32117844    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.56243896    
 Time spent in Integrated_CT :    11.4032593    
 Time spent in Virtuals :    715.012939    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.7897253    
 Time spent in N1body_prefactor :   0.909258306    
 Time spent in Adding_alphas_pdf :    12.8861151    
 Time spent in Reweight_scale :    54.7919159    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.2104988    
 Time spent in Applying_cuts :    7.24020100    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    52.9034576    
 Time spent in Other_tasks :    30.6077881    
 Time spent in Total :    932.400879    
Time in seconds: 951



LOG file for integration channel /P0_uux_emep/all_G1_58, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        5006
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          58
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 183106
  with seed                   49
 Ranmar initialization seeds         124       12044
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.444548D+04 0.444548D+04  1.00
 muF1, muF1_reference: 0.444548D+04 0.444548D+04  1.00
 muF2, muF2_reference: 0.444548D+04 0.444548D+04  1.00
 QES,  QES_reference:  0.444548D+04 0.444548D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4639329719706035E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4092311495302890E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4270976459247986E-005           OLP:   -1.4270976459247985E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9596992801281782E-006           OLP:   -4.9596992801282832E-006
  FINITE:
           OLP:   -9.5785853267613325E-004
           BORN:    4.1128367839540093E-003
  MOMENTA (Exyzm): 
           1   2404.5327324684463        0.0000000000000000        0.0000000000000000        2404.5327324684463        0.0000000000000000     
           2   2404.5327324684463       -0.0000000000000000       -0.0000000000000000       -2404.5327324684463        0.0000000000000000     
           3   2404.5327324684463       -2000.7076930906171       -62.531633982889289        1332.3048386430276        0.0000000000000000     
           4   2404.5327324684463        2000.7076930906171        62.531633982889289       -1332.3048386430276        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4270976459247986E-005           OLP:   -1.4270976459247985E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9596992801281748E-006           OLP:   -4.9596992801282832E-006
ABS integral  = 0.9027E-06  +/-  0.1846E-08  (   0.204 %)
Integral      = 0.5151E-06  +/-  0.2095E-08  (   0.407 %)
Virtual       = 0.3969E-09  +/-  0.1058E-08  ( 266.653 %)
Virtual ratio = -.1934E+00  +/-  0.4127E-03  (   0.213 %)
ABS virtual   = 0.4835E-06  +/-  0.8382E-09  (   0.173 %)
Born          = 0.1900E-05  +/-  0.2701E-08  (   0.142 %)
V  2          = 0.3969E-09  +/-  0.1058E-08  ( 266.653 %)
B  2          = 0.1900E-05  +/-  0.2701E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9027E-06  +/-  0.1846E-08  (   0.204 %)
accumulated results Integral      = 0.5151E-06  +/-  0.2095E-08  (   0.407 %)
accumulated results Virtual       = 0.3969E-09  +/-  0.1058E-08  ( 266.653 %)
accumulated results Virtual ratio = -.1934E+00  +/-  0.4127E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4835E-06  +/-  0.8382E-09  (   0.173 %)
accumulated results Born          = 0.1900E-05  +/-  0.2701E-08  (   0.142 %)
accumulated results V  2          = 0.3969E-09  +/-  0.1058E-08  ( 266.653 %)
accumulated results B  2          = 0.1900E-05  +/-  0.2701E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   203967    24013  0.3279E-06  0.1856E-06  0.1000E+01
channel    2 :     1 T   207986    24468  0.3359E-06  0.1992E-06  0.8956E+00
channel    3 :     2 T    73250     8219  0.1180E-06  0.6265E-07  0.9993E+00
channel    4 :     2 T    74673     8835  0.1209E-06  0.6769E-07  0.9621E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0265666498527993E-007  +/-   1.8456854354621877E-009
 Final result:   5.1514166157425793E-007  +/-   2.0947273860680330E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406097
   Stability unknown:                                          0
   Stable PS point:                                       406097
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406097
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406097
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.78846538    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.35690641    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.62652349    
 Time spent in Integrated_CT :    11.5127563    
 Time spent in Virtuals :    713.235901    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.9271164    
 Time spent in N1body_prefactor :   0.955485940    
 Time spent in Adding_alphas_pdf :    12.9994717    
 Time spent in Reweight_scale :    55.5857620    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.2243347    
 Time spent in Applying_cuts :    7.26867867    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    53.1714401    
 Time spent in Other_tasks :    30.6199341    
 Time spent in Total :    932.272827    
Time in seconds: 951



LOG file for integration channel /P0_uux_emep/all_G1_59, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        4998
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          59
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 186263
  with seed                   49
 Ranmar initialization seeds         124       15201
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.387391D+04 0.387391D+04  1.00
 muF1, muF1_reference: 0.387391D+04 0.387391D+04  1.00
 muF2, muF2_reference: 0.387391D+04 0.387391D+04  1.00
 QES,  QES_reference:  0.387391D+04 0.387391D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5616841907180460E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4113560367265865E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4212638271034118E-005           OLP:   -1.4212638271034115E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0642252602794348E-006           OLP:   -5.0642252602779855E-006
  FINITE:
           OLP:   -9.5064984969168618E-004
           BORN:    4.0960239577903347E-003
  MOMENTA (Exyzm): 
           1   2397.1464856888597        0.0000000000000000        0.0000000000000000        2397.1464856888597        0.0000000000000000     
           2   2397.1464856888597       -0.0000000000000000       -0.0000000000000000       -2397.1464856888597        0.0000000000000000     
           3   2397.1464856888597       -1404.3525143543088       -1425.1102552781329        1320.2901384083259        0.0000000000000000     
           4   2397.1464856888597        1404.3525143543088        1425.1102552781329       -1320.2901384083259        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4212638271034118E-005           OLP:   -1.4212638271034115E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0642252602794382E-006           OLP:   -5.0642252602779855E-006
ABS integral  = 0.9053E-06  +/-  0.1815E-08  (   0.200 %)
Integral      = 0.5118E-06  +/-  0.2071E-08  (   0.405 %)
Virtual       = -.2177E-08  +/-  0.1065E-08  (  48.929 %)
Virtual ratio = -.1942E+00  +/-  0.4124E-03  (   0.212 %)
ABS virtual   = 0.4846E-06  +/-  0.8459E-09  (   0.175 %)
Born          = 0.1904E-05  +/-  0.2722E-08  (   0.143 %)
V  2          = -.2177E-08  +/-  0.1065E-08  (  48.929 %)
B  2          = 0.1904E-05  +/-  0.2722E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9053E-06  +/-  0.1815E-08  (   0.200 %)
accumulated results Integral      = 0.5118E-06  +/-  0.2071E-08  (   0.405 %)
accumulated results Virtual       = -.2177E-08  +/-  0.1065E-08  (  48.929 %)
accumulated results Virtual ratio = -.1942E+00  +/-  0.4124E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4846E-06  +/-  0.8459E-09  (   0.175 %)
accumulated results Born          = 0.1904E-05  +/-  0.2722E-08  (   0.143 %)
accumulated results V  2          = -.2177E-08  +/-  0.1065E-08  (  48.929 %)
accumulated results B  2          = 0.1904E-05  +/-  0.2722E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   204385    24013  0.3288E-06  0.1855E-06  0.1000E+01
channel    2 :     1 T   208386    24468  0.3380E-06  0.1983E-06  0.9290E+00
channel    3 :     2 T    72871     8219  0.1180E-06  0.6148E-07  0.9959E+00
channel    4 :     2 T    74231     8835  0.1205E-06  0.6658E-07  0.9450E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0526243529022762E-007  +/-   1.8148282197475233E-009
 Final result:   5.1181099985421144E-007  +/-   2.0710995474464685E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406181
   Stability unknown:                                          0
   Stable PS point:                                       406181
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406181
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406181
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.73706388    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.34425640    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.54763126    
 Time spent in Integrated_CT :    11.3230591    
 Time spent in Virtuals :    710.922668    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.7925987    
 Time spent in N1body_prefactor :   0.910794318    
 Time spent in Adding_alphas_pdf :    12.8345108    
 Time spent in Reweight_scale :    54.7194672    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.4238968    
 Time spent in Applying_cuts :    7.18375921    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    52.9203606    
 Time spent in Other_tasks :    30.0676270    
 Time spent in Total :    927.727722    
Time in seconds: 944



LOG file for integration channel /P0_uux_emep/all_G1_60, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        5003
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          60
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 189420
  with seed                   49
 Ranmar initialization seeds         124       18358
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.440036D+04 0.440036D+04  1.00
 muF1, muF1_reference: 0.440036D+04 0.440036D+04  1.00
 muF2, muF2_reference: 0.440036D+04 0.440036D+04  1.00
 QES,  QES_reference:  0.440036D+04 0.440036D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4710941167200132E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4124967036662909E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4094515004461529E-005           OLP:   -1.4094515004461507E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2716033084109171E-006           OLP:   -5.2716033084104351E-006
  FINITE:
           OLP:   -9.3865780631613080E-004
           BORN:    4.0619813176677151E-003
  MOMENTA (Exyzm): 
           1   2393.1926345685442        0.0000000000000000        0.0000000000000000        2393.1926345685442        0.0000000000000000     
           2   2393.1926345685442       -0.0000000000000000       -0.0000000000000000       -2393.1926345685442        0.0000000000000000     
           3   2393.1926345685442       -1078.6151586422732       -1693.7064487432037        1302.0440818904403        0.0000000000000000     
           4   2393.1926345685442        1078.6151586422732        1693.7064487432037       -1302.0440818904403        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4094515004461529E-005           OLP:   -1.4094515004461507E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2716033084109171E-006           OLP:   -5.2716033084104351E-006
ABS integral  = 0.9072E-06  +/-  0.1986E-08  (   0.219 %)
Integral      = 0.5195E-06  +/-  0.2221E-08  (   0.427 %)
Virtual       = 0.7232E-09  +/-  0.1066E-08  ( 147.464 %)
Virtual ratio = -.1937E+00  +/-  0.4126E-03  (   0.213 %)
ABS virtual   = 0.4852E-06  +/-  0.8466E-09  (   0.174 %)
Born          = 0.1905E-05  +/-  0.2718E-08  (   0.143 %)
V  2          = 0.7232E-09  +/-  0.1066E-08  ( 147.464 %)
B  2          = 0.1905E-05  +/-  0.2718E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9072E-06  +/-  0.1986E-08  (   0.219 %)
accumulated results Integral      = 0.5195E-06  +/-  0.2221E-08  (   0.427 %)
accumulated results Virtual       = 0.7232E-09  +/-  0.1066E-08  ( 147.464 %)
accumulated results Virtual ratio = -.1937E+00  +/-  0.4126E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4852E-06  +/-  0.8466E-09  (   0.174 %)
accumulated results Born          = 0.1905E-05  +/-  0.2718E-08  (   0.143 %)
accumulated results V  2          = 0.7232E-09  +/-  0.1066E-08  ( 147.464 %)
accumulated results B  2          = 0.1905E-05  +/-  0.2718E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                     2                       3                         4
channel    1 :     1 T   203760    24013  0.3293E-06  0.1889E-06  0.1000E+01
channel    2 :     1 T   207908    24468  0.3381E-06  0.2009E-06  0.8918E+00
channel    3 :     2 T    73462     8219  0.1185E-06  0.6211E-07  0.9873E+00
channel    4 :     2 T    74746     8835  0.1213E-06  0.6756E-07  0.7106E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0716221649154595E-007  +/-   1.9856872112473091E-009
 Final result:   5.1947276331917625E-007  +/-   2.2205500675866338E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406087
   Stability unknown:                                          0
   Stable PS point:                                       406087
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406087
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406087
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.75508499    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.28006268    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.54685259    
 Time spent in Integrated_CT :    11.3991089    
 Time spent in Virtuals :    711.134766    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.7985640    
 Time spent in N1body_prefactor :   0.892102301    
 Time spent in Adding_alphas_pdf :    12.8606358    
 Time spent in Reweight_scale :    54.5958290    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.1028175    
 Time spent in Applying_cuts :    7.18639183    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    52.8377609    
 Time spent in Other_tasks :    30.5008545    
 Time spent in Total :    927.890869    
Time in seconds: 945



LOG file for integration channel /P0_uux_emep/all_G1_61, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        5004
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          61
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 192577
  with seed                   49
 Ranmar initialization seeds         124       21515
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.441758D+04 0.441758D+04  1.00
 muF1, muF1_reference: 0.441758D+04 0.441758D+04  1.00
 muF2, muF2_reference: 0.441758D+04 0.441758D+04  1.00
 QES,  QES_reference:  0.441758D+04 0.441758D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4683504105945486E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4108883051036023E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4153624004647399E-005           OLP:   -1.4153624004647399E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1685040418598777E-006           OLP:   -5.1685040418590730E-006
  FINITE:
           OLP:   -9.4548687137463179E-004
           BORN:    4.0790162886748778E-003
  MOMENTA (Exyzm): 
           1   2398.7700222011226        0.0000000000000000        0.0000000000000000        2398.7700222011226        0.0000000000000000     
           2   2398.7700222011226       -0.0000000000000000       -0.0000000000000000       -2398.7700222011226        0.0000000000000000     
           3   2398.7700222011226       -1216.8603485416465       -1596.5548082677119        1313.1493653637149        0.0000000000000000     
           4   2398.7700222011226        1216.8603485416465        1596.5548082677119       -1313.1493653637149        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4153624004647399E-005           OLP:   -1.4153624004647399E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1685040418598810E-006           OLP:   -5.1685040418590730E-006
ABS integral  = 0.9028E-06  +/-  0.2053E-08  (   0.227 %)
Integral      = 0.5146E-06  +/-  0.2280E-08  (   0.443 %)
Virtual       = 0.6690E-09  +/-  0.1060E-08  ( 158.423 %)
Virtual ratio = -.1934E+00  +/-  0.4125E-03  (   0.213 %)
ABS virtual   = 0.4843E-06  +/-  0.8392E-09  (   0.173 %)
Born          = 0.1901E-05  +/-  0.2697E-08  (   0.142 %)
V  2          = 0.6690E-09  +/-  0.1060E-08  ( 158.423 %)
B  2          = 0.1901E-05  +/-  0.2697E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9028E-06  +/-  0.2053E-08  (   0.227 %)
accumulated results Integral      = 0.5146E-06  +/-  0.2280E-08  (   0.443 %)
accumulated results Virtual       = 0.6690E-09  +/-  0.1060E-08  ( 158.423 %)
accumulated results Virtual ratio = -.1934E+00  +/-  0.4125E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4843E-06  +/-  0.8392E-09  (   0.173 %)
accumulated results Born          = 0.1901E-05  +/-  0.2697E-08  (   0.142 %)
accumulated results V  2          = 0.6690E-09  +/-  0.1060E-08  ( 158.423 %)
accumulated results B  2          = 0.1901E-05  +/-  0.2697E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                     2                       3                         4
channel    1 :     1 T   203913    24013  0.3284E-06  0.1873E-06  0.9851E+00
channel    2 :     1 T   208073    24468  0.3353E-06  0.1978E-06  0.9585E+00
channel    3 :     2 T    73236     8219  0.1174E-06  0.6242E-07  0.1000E+01
channel    4 :     2 T    74646     8835  0.1216E-06  0.6700E-07  0.5972E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0280230989916472E-007  +/-   2.0527926142063215E-009
 Final result:   5.1456753009414779E-007  +/-   2.2796515564305622E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406208
   Stability unknown:                                          0
   Stable PS point:                                       406208
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406208
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406208
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.78085637    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.26917076    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.56448364    
 Time spent in Integrated_CT :    11.3654175    
 Time spent in Virtuals :    713.616150    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.8211536    
 Time spent in N1body_prefactor :   0.897634745    
 Time spent in Adding_alphas_pdf :    12.7906361    
 Time spent in Reweight_scale :    54.0147629    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.4805450    
 Time spent in Applying_cuts :    7.26147652    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    52.9670334    
 Time spent in Other_tasks :    30.3271484    
 Time spent in Total :    930.156494    
Time in seconds: 948



LOG file for integration channel /P0_uux_emep/all_G1_62, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        5008
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          62
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 195734
  with seed                   49
 Ranmar initialization seeds         124       24672
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.432133D+04 0.432133D+04  1.00
 muF1, muF1_reference: 0.432133D+04 0.432133D+04  1.00
 muF2, muF2_reference: 0.432133D+04 0.432133D+04  1.00
 QES,  QES_reference:  0.432133D+04 0.432133D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4838495812732928E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4052875030430829E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4223707839530781E-005           OLP:   -1.4223707839530758E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0443647030973401E-006           OLP:   -5.0443647030985115E-006
  FINITE:
           OLP:   -9.5660695225181964E-004
           BORN:    4.0992141619522983E-003
  MOMENTA (Exyzm): 
           1   2418.3132818551926        0.0000000000000000        0.0000000000000000        2418.3132818551926        0.0000000000000000     
           2   2418.3132818551926       -0.0000000000000000       -0.0000000000000000       -2418.3132818551926        0.0000000000000000     
           3   2418.3132818551926       -1223.8456531293582       -1603.8347651509496        1333.4747813913866        0.0000000000000000     
           4   2418.3132818551926        1223.8456531293582        1603.8347651509496       -1333.4747813913866        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4223707839530781E-005           OLP:   -1.4223707839530758E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0443647030973401E-006           OLP:   -5.0443647030985115E-006
ABS integral  = 0.9014E-06  +/-  0.1824E-08  (   0.202 %)
Integral      = 0.5128E-06  +/-  0.2076E-08  (   0.405 %)
Virtual       = -.1048E-08  +/-  0.1057E-08  ( 100.899 %)
Virtual ratio = -.1942E+00  +/-  0.4129E-03  (   0.213 %)
ABS virtual   = 0.4834E-06  +/-  0.8369E-09  (   0.173 %)
Born          = 0.1899E-05  +/-  0.2696E-08  (   0.142 %)
V  2          = -.1048E-08  +/-  0.1057E-08  ( 100.899 %)
B  2          = 0.1899E-05  +/-  0.2696E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9014E-06  +/-  0.1824E-08  (   0.202 %)
accumulated results Integral      = 0.5128E-06  +/-  0.2076E-08  (   0.405 %)
accumulated results Virtual       = -.1048E-08  +/-  0.1057E-08  ( 100.899 %)
accumulated results Virtual ratio = -.1942E+00  +/-  0.4129E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4834E-06  +/-  0.8369E-09  (   0.173 %)
accumulated results Born          = 0.1899E-05  +/-  0.2696E-08  (   0.142 %)
accumulated results V  2          = -.1048E-08  +/-  0.1057E-08  ( 100.899 %)
accumulated results B  2          = 0.1899E-05  +/-  0.2696E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                     2                       3                         4
channel    1 :     1 T   204295    24013  0.3284E-06  0.1847E-06  0.1000E+01
channel    2 :     1 T   207976    24468  0.3342E-06  0.1977E-06  0.9270E+00
channel    3 :     2 T    73266     8219  0.1180E-06  0.6263E-07  0.9476E+00
channel    4 :     2 T    74335     8835  0.1208E-06  0.6769E-07  0.9371E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0141428422159441E-007  +/-   1.8239955177715599E-009
 Final result:   5.1279185113048603E-007  +/-   2.0757164349973893E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405904
   Stability unknown:                                          0
   Stable PS point:                                       405904
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405904
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405904
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.73878276    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.22910500    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.55048561    
 Time spent in Integrated_CT :    11.3074951    
 Time spent in Virtuals :    713.508240    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.8774567    
 Time spent in N1body_prefactor :   0.913110375    
 Time spent in Adding_alphas_pdf :    12.7885914    
 Time spent in Reweight_scale :    54.3796234    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.1130104    
 Time spent in Applying_cuts :    7.12045860    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    53.3741684    
 Time spent in Other_tasks :    30.2619019    
 Time spent in Total :    930.162415    
Time in seconds: 948



LOG file for integration channel /P0_uux_emep/all_G1_63, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3931
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          63
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 198891
  with seed                   49
 Ranmar initialization seeds         124       27829
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.444549D+04 0.444549D+04  1.00
 muF1, muF1_reference: 0.444549D+04 0.444549D+04  1.00
 muF2, muF2_reference: 0.444549D+04 0.444549D+04  1.00
 QES,  QES_reference:  0.444549D+04 0.444549D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4639315820471633E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4087436884248833E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4066315507817364E-005           OLP:   -1.4066315507817345E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3201974418546815E-006           OLP:   -5.3201974418546374E-006
  FINITE:
           OLP:   -9.3901524987055575E-004
           BORN:    4.0538543385911048E-003
  MOMENTA (Exyzm): 
           1   2406.2310110410467        0.0000000000000000        0.0000000000000000        2406.2310110410467        0.0000000000000000     
           2   2406.2310110410467       -0.0000000000000000       -0.0000000000000000       -2406.2310110410467        0.0000000000000000     
           3   2406.2310110410467       -2019.6674695021088       -84.545490132797838        1305.2750864200129        0.0000000000000000     
           4   2406.2310110410467        2019.6674695021088        84.545490132797838       -1305.2750864200129        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4066315507817364E-005           OLP:   -1.4066315507817345E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3201974418546823E-006           OLP:   -5.3201974418546374E-006
ABS integral  = 0.9034E-06  +/-  0.1869E-08  (   0.207 %)
Integral      = 0.5150E-06  +/-  0.2116E-08  (   0.411 %)
Virtual       = -.1902E-08  +/-  0.1058E-08  (  55.622 %)
Virtual ratio = -.1941E+00  +/-  0.4123E-03  (   0.212 %)
ABS virtual   = 0.4833E-06  +/-  0.8377E-09  (   0.173 %)
Born          = 0.1901E-05  +/-  0.2707E-08  (   0.142 %)
V  2          = -.1902E-08  +/-  0.1058E-08  (  55.622 %)
B  2          = 0.1901E-05  +/-  0.2707E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9034E-06  +/-  0.1869E-08  (   0.207 %)
accumulated results Integral      = 0.5150E-06  +/-  0.2116E-08  (   0.411 %)
accumulated results Virtual       = -.1902E-08  +/-  0.1058E-08  (  55.622 %)
accumulated results Virtual ratio = -.1941E+00  +/-  0.4123E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4833E-06  +/-  0.8377E-09  (   0.173 %)
accumulated results Born          = 0.1901E-05  +/-  0.2707E-08  (   0.142 %)
accumulated results V  2          = -.1902E-08  +/-  0.1058E-08  (  55.622 %)
accumulated results B  2          = 0.1901E-05  +/-  0.2707E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   204366    24013  0.3299E-06  0.1853E-06  0.9872E+00
channel    2 :     1 T   207878    24468  0.3376E-06  0.1991E-06  0.8756E+00
channel    3 :     2 T    73209     8219  0.1171E-06  0.6358E-07  0.1000E+01
channel    4 :     2 T    74419     8835  0.1188E-06  0.6698E-07  0.9684E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0338381910177500E-007  +/-   1.8693808704364093E-009
 Final result:   5.1497917149463270E-007  +/-   2.1162602779061998E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406509
   Stability unknown:                                          0
   Stable PS point:                                       406509
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406509
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406509
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.50145566    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.66125107    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.32029438    
 Time spent in Integrated_CT :    9.79803467    
 Time spent in Virtuals :    589.917786    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.44217205    
 Time spent in N1body_prefactor :   0.791755557    
 Time spent in Adding_alphas_pdf :    10.3655977    
 Time spent in Reweight_scale :    45.3381691    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.6088562    
 Time spent in Applying_cuts :    5.52552366    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.9559784    
 Time spent in Other_tasks :    24.9893799    
 Time spent in Total :    758.216370    
Time in seconds: 844



LOG file for integration channel /P0_uux_emep/all_G1_64, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3947
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          64
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 202048
  with seed                   49
 Ranmar initialization seeds         124         905
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.446165D+04 0.446165D+04  1.00
 muF1, muF1_reference: 0.446165D+04 0.446165D+04  1.00
 muF2, muF2_reference: 0.446165D+04 0.446165D+04  1.00
 QES,  QES_reference:  0.446165D+04 0.446165D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4613883565210065E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4088395384481781E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4092050890287027E-005           OLP:   -1.4092050890287020E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2757854369948788E-006           OLP:   -5.2757854369947839E-006
  FINITE:
           OLP:   -9.4135319498616515E-004
           BORN:    4.0612711700863148E-003
  MOMENTA (Exyzm): 
           1   2405.8969634878067        0.0000000000000000        0.0000000000000000        2405.8969634878067        0.0000000000000000     
           2   2405.8969634878067       -0.0000000000000000       -0.0000000000000000       -2405.8969634878067        0.0000000000000000     
           3   2405.8969634878067       -1756.1510648927042       -995.88032498650637        1308.6237100484007        0.0000000000000000     
           4   2405.8969634878067        1756.1510648927042        995.88032498650637       -1308.6237100484007        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4092050890287027E-005           OLP:   -1.4092050890287020E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2757854369948796E-006           OLP:   -5.2757854369947839E-006
ABS integral  = 0.8987E-06  +/-  0.1789E-08  (   0.199 %)
Integral      = 0.5150E-06  +/-  0.2041E-08  (   0.396 %)
Virtual       = -.1394E-08  +/-  0.1053E-08  (  75.575 %)
Virtual ratio = -.1940E+00  +/-  0.4120E-03  (   0.212 %)
ABS virtual   = 0.4819E-06  +/-  0.8337E-09  (   0.173 %)
Born          = 0.1896E-05  +/-  0.2701E-08  (   0.142 %)
V  2          = -.1394E-08  +/-  0.1053E-08  (  75.575 %)
B  2          = 0.1896E-05  +/-  0.2701E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8987E-06  +/-  0.1789E-08  (   0.199 %)
accumulated results Integral      = 0.5150E-06  +/-  0.2041E-08  (   0.396 %)
accumulated results Virtual       = -.1394E-08  +/-  0.1053E-08  (  75.575 %)
accumulated results Virtual ratio = -.1940E+00  +/-  0.4120E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4819E-06  +/-  0.8337E-09  (   0.173 %)
accumulated results Born          = 0.1896E-05  +/-  0.2701E-08  (   0.142 %)
accumulated results V  2          = -.1394E-08  +/-  0.1053E-08  (  75.575 %)
accumulated results B  2          = 0.1896E-05  +/-  0.2701E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   203849    24013  0.3259E-06  0.1849E-06  0.1000E+01
channel    2 :     1 T   208100    24468  0.3354E-06  0.1990E-06  0.9322E+00
channel    3 :     2 T    72973     8219  0.1162E-06  0.6304E-07  0.1000E+01
channel    4 :     2 T    74955     8835  0.1212E-06  0.6809E-07  0.9261E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.9870488573271283E-007  +/-   1.7885048446351614E-009
 Final result:   5.1500174983866165E-007  +/-   2.0414750659635522E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406151
   Stability unknown:                                          0
   Stable PS point:                                       406151
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406151
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406151
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.51838040    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.69328117    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.37154102    
 Time spent in Integrated_CT :    9.70672607    
 Time spent in Virtuals :    586.588257    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.46424389    
 Time spent in N1body_prefactor :   0.804774344    
 Time spent in Adding_alphas_pdf :    10.3215466    
 Time spent in Reweight_scale :    45.1541138    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.7549677    
 Time spent in Applying_cuts :    5.58517170    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.9294128    
 Time spent in Other_tasks :    25.1638184    
 Time spent in Total :    755.056152    
Time in seconds: 844



LOG file for integration channel /P0_uux_emep/all_G1_65, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3957
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          65
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 205205
  with seed                   49
 Ranmar initialization seeds         124        4062
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.404823D+04 0.404823D+04  1.00
 muF1, muF1_reference: 0.404823D+04 0.404823D+04  1.00
 muF2, muF2_reference: 0.404823D+04 0.404823D+04  1.00
 QES,  QES_reference:  0.404823D+04 0.404823D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5301488548683321E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4129535035502472E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.3990139718063148E-005           OLP:   -1.3990139718063148E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.4502301988353629E-006           OLP:   -5.4502301988358796E-006
  FINITE:
           OLP:   -9.2853664797958794E-004
           BORN:    4.0319007889484063E-003
  MOMENTA (Exyzm): 
           1   2391.6114315101054        0.0000000000000000        0.0000000000000000        2391.6114315101054        0.0000000000000000     
           2   2391.6114315101054       -0.0000000000000000       -0.0000000000000000       -2391.6114315101054        0.0000000000000000     
           3   2391.6114315101054       -1209.4358773449715       -1612.7251888073963        1286.9295098437844        0.0000000000000000     
           4   2391.6114315101054        1209.4358773449715        1612.7251888073963       -1286.9295098437844        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.3990139718063148E-005           OLP:   -1.3990139718063148E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.4502301988353629E-006           OLP:   -5.4502301988358796E-006
ABS integral  = 0.9058E-06  +/-  0.2094E-08  (   0.231 %)
Integral      = 0.5106E-06  +/-  0.2320E-08  (   0.454 %)
Virtual       = -.1294E-08  +/-  0.1061E-08  (  82.024 %)
Virtual ratio = -.1943E+00  +/-  0.4124E-03  (   0.212 %)
ABS virtual   = 0.4836E-06  +/-  0.8419E-09  (   0.174 %)
Born          = 0.1901E-05  +/-  0.2708E-08  (   0.142 %)
V  2          = -.1294E-08  +/-  0.1061E-08  (  82.024 %)
B  2          = 0.1901E-05  +/-  0.2708E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9058E-06  +/-  0.2094E-08  (   0.231 %)
accumulated results Integral      = 0.5106E-06  +/-  0.2320E-08  (   0.454 %)
accumulated results Virtual       = -.1294E-08  +/-  0.1061E-08  (  82.024 %)
accumulated results Virtual ratio = -.1943E+00  +/-  0.4124E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4836E-06  +/-  0.8419E-09  (   0.174 %)
accumulated results Born          = 0.1901E-05  +/-  0.2708E-08  (   0.142 %)
accumulated results V  2          = -.1294E-08  +/-  0.1061E-08  (  82.024 %)
accumulated results B  2          = 0.1901E-05  +/-  0.2708E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                     2                       3                         4
channel    1 :     1 T   203517    24013  0.3288E-06  0.1859E-06  0.9883E+00
channel    2 :     1 T   208127    24468  0.3384E-06  0.1957E-06  0.7551E+00
channel    3 :     2 T    73008     8219  0.1184E-06  0.6085E-07  0.8575E+00
channel    4 :     2 T    75217     8835  0.1202E-06  0.6818E-07  0.9824E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0584598417368095E-007  +/-   2.0938101981537795E-009
 Final result:   5.1057748182339404E-007  +/-   2.3203519679090177E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405950
   Stability unknown:                                          0
   Stable PS point:                                       405950
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405950
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405950
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.53707528    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.67519760    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.33626509    
 Time spent in Integrated_CT :    9.71270752    
 Time spent in Virtuals :    584.884705    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.58570290    
 Time spent in N1body_prefactor :   0.811778605    
 Time spent in Adding_alphas_pdf :    10.3044395    
 Time spent in Reweight_scale :    45.6868324    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.2796974    
 Time spent in Applying_cuts :    5.56234169    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.0246315    
 Time spent in Other_tasks :    25.2127686    
 Time spent in Total :    754.614136    
Time in seconds: 844



LOG file for integration channel /P0_uux_emep/all_G1_66, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3926
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          66
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 208362
  with seed                   49
 Ranmar initialization seeds         124        7219
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.444969D+04 0.444969D+04  1.00
 muF1, muF1_reference: 0.444969D+04 0.444969D+04  1.00
 muF2, muF2_reference: 0.444969D+04 0.444969D+04  1.00
 QES,  QES_reference:  0.444969D+04 0.444969D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4632700755506445E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4051247293876188E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4230709899920184E-005           OLP:   -1.4230709899920177E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0318624460975600E-006           OLP:   -5.0318624460976379E-006
  FINITE:
           OLP:   -9.5739991530791177E-004
           BORN:    4.1012321269889053E-003
  MOMENTA (Exyzm): 
           1   2418.8840967800406        0.0000000000000000        0.0000000000000000        2418.8840967800406        0.0000000000000000     
           2   2418.8840967800406       -0.0000000000000000       -0.0000000000000000       -2418.8840967800406        0.0000000000000000     
           3   2418.8840967800406       -1950.0403293467791       -516.51417689835205        1334.7494493872312        0.0000000000000000     
           4   2418.8840967800406        1950.0403293467791        516.51417689835205       -1334.7494493872312        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4230709899920184E-005           OLP:   -1.4230709899920177E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0318624460975608E-006           OLP:   -5.0318624460976379E-006
ABS integral  = 0.9032E-06  +/-  0.1973E-08  (   0.218 %)
Integral      = 0.5123E-06  +/-  0.2210E-08  (   0.431 %)
Virtual       = -.1225E-08  +/-  0.1060E-08  (  86.487 %)
Virtual ratio = -.1943E+00  +/-  0.4123E-03  (   0.212 %)
ABS virtual   = 0.4829E-06  +/-  0.8408E-09  (   0.174 %)
Born          = 0.1900E-05  +/-  0.2709E-08  (   0.143 %)
V  2          = -.1225E-08  +/-  0.1060E-08  (  86.487 %)
B  2          = 0.1900E-05  +/-  0.2709E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9032E-06  +/-  0.1973E-08  (   0.218 %)
accumulated results Integral      = 0.5123E-06  +/-  0.2210E-08  (   0.431 %)
accumulated results Virtual       = -.1225E-08  +/-  0.1060E-08  (  86.487 %)
accumulated results Virtual ratio = -.1943E+00  +/-  0.4123E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4829E-06  +/-  0.8408E-09  (   0.174 %)
accumulated results Born          = 0.1900E-05  +/-  0.2709E-08  (   0.143 %)
accumulated results V  2          = -.1225E-08  +/-  0.1060E-08  (  86.487 %)
accumulated results B  2          = 0.1900E-05  +/-  0.2709E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   203324    24013  0.3284E-06  0.1823E-06  0.1000E+01
channel    2 :     1 T   208020    24468  0.3360E-06  0.2003E-06  0.8844E+00
channel    3 :     2 T    73807     8219  0.1190E-06  0.6180E-07  0.7536E+00
channel    4 :     2 T    74720     8835  0.1198E-06  0.6794E-07  0.9517E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0319403662581839E-007  +/-   1.9734103127272642E-009
 Final result:   5.1227980473642745E-007  +/-   2.2096745075725226E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405934
   Stability unknown:                                          0
   Stable PS point:                                       405934
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405934
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405934
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.54910183    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.64478683    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.33845997    
 Time spent in Integrated_CT :    9.62878418    
 Time spent in Virtuals :    584.560120    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.47414398    
 Time spent in N1body_prefactor :   0.805538774    
 Time spent in Adding_alphas_pdf :    10.2779503    
 Time spent in Reweight_scale :    45.2840652    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.6237679    
 Time spent in Applying_cuts :    5.56492710    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.0250320    
 Time spent in Other_tasks :    24.8647461    
 Time spent in Total :    752.641418    
Time in seconds: 844



LOG file for integration channel /P0_uux_emep/all_G1_67, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3959
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          67
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 211519
  with seed                   49
 Ranmar initialization seeds         124       10376
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.420594D+04 0.420594D+04  1.00
 muF1, muF1_reference: 0.420594D+04 0.420594D+04  1.00
 muF2, muF2_reference: 0.420594D+04 0.420594D+04  1.00
 QES,  QES_reference:  0.420594D+04 0.420594D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5029773929473575E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4043094643274646E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4365697493411088E-005           OLP:   -1.4365697493411088E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.7869921006939705E-006           OLP:   -4.7869921006938960E-006
  FINITE:
           OLP:   -9.7082803390030246E-004
           BORN:    4.1401349968431291E-003
  MOMENTA (Exyzm): 
           1   2421.7454917509021        0.0000000000000000        0.0000000000000000        2421.7454917509021        0.0000000000000000     
           2   2421.7454917509021       -0.0000000000000000       -0.0000000000000000       -2421.7454917509021        0.0000000000000000     
           3   2421.7454917509021       -1181.1590474562822       -1623.0331365244210        1354.7981285681224        0.0000000000000000     
           4   2421.7454917509021        1181.1590474562822        1623.0331365244210       -1354.7981285681224        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4365697493411088E-005           OLP:   -1.4365697493411088E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.7869921006939705E-006           OLP:   -4.7869921006938960E-006
ABS integral  = 0.9017E-06  +/-  0.1828E-08  (   0.203 %)
Integral      = 0.5125E-06  +/-  0.2080E-08  (   0.406 %)
Virtual       = -.9261E-10  +/-  0.1058E-08  ( ******* %)
Virtual ratio = -.1937E+00  +/-  0.4119E-03  (   0.213 %)
ABS virtual   = 0.4836E-06  +/-  0.8375E-09  (   0.173 %)
Born          = 0.1901E-05  +/-  0.2697E-08  (   0.142 %)
V  2          = -.9261E-10  +/-  0.1058E-08  ( ******* %)
B  2          = 0.1901E-05  +/-  0.2697E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9017E-06  +/-  0.1828E-08  (   0.203 %)
accumulated results Integral      = 0.5125E-06  +/-  0.2080E-08  (   0.406 %)
accumulated results Virtual       = -.9261E-10  +/-  0.1058E-08  ( ******* %)
accumulated results Virtual ratio = -.1937E+00  +/-  0.4119E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4836E-06  +/-  0.8375E-09  (   0.173 %)
accumulated results Born          = 0.1901E-05  +/-  0.2697E-08  (   0.142 %)
accumulated results V  2          = -.9261E-10  +/-  0.1058E-08  ( ******* %)
accumulated results B  2          = 0.1901E-05  +/-  0.2697E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   203547    24013  0.3287E-06  0.1834E-06  0.9765E+00
channel    2 :     1 T   208547    24468  0.3360E-06  0.2008E-06  0.9607E+00
channel    3 :     2 T    73117     8219  0.1166E-06  0.6152E-07  0.9710E+00
channel    4 :     2 T    74660     8835  0.1205E-06  0.6676E-07  0.9159E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0173262577525650E-007  +/-   1.8280299343733976E-009
 Final result:   5.1246104410585995E-007  +/-   2.0796546726460973E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406488
   Stability unknown:                                          0
   Stable PS point:                                       406488
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406488
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406488
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.49734104    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.65006781    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.33631659    
 Time spent in Integrated_CT :    9.80004883    
 Time spent in Virtuals :    590.504333    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.38704586    
 Time spent in N1body_prefactor :   0.786170602    
 Time spent in Adding_alphas_pdf :    10.3449373    
 Time spent in Reweight_scale :    45.1331673    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.0320253    
 Time spent in Applying_cuts :    5.57505655    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.8870697    
 Time spent in Other_tasks :    25.1029053    
 Time spent in Total :    759.036499    
Time in seconds: 844



LOG file for integration channel /P0_uux_emep/all_G1_68, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3960
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          68
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 214676
  with seed                   49
 Ranmar initialization seeds         124       13533
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.437075D+04 0.437075D+04  1.00
 muF1, muF1_reference: 0.437075D+04 0.437075D+04  1.00
 muF2, muF2_reference: 0.437075D+04 0.437075D+04  1.00
 QES,  QES_reference:  0.437075D+04 0.437075D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4758404856633903E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4095478931233374E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4103570342920787E-005           OLP:   -1.4103570342920761E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2558365288405956E-006           OLP:   -5.2558365288406761E-006
  FINITE:
           OLP:   -9.4186653859480447E-004
           BORN:    4.0645910290082630E-003
  MOMENTA (Exyzm): 
           1   2403.4299885351925        0.0000000000000000        0.0000000000000000        2403.4299885351925        0.0000000000000000     
           2   2403.4299885351925       -0.0000000000000000       -0.0000000000000000       -2403.4299885351925        0.0000000000000000     
           3   2403.4299885351925       -2006.6019267018844       -192.13308858630393        1308.8580113277560        0.0000000000000000     
           4   2403.4299885351925        2006.6019267018844        192.13308858630393       -1308.8580113277560        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4103570342920787E-005           OLP:   -1.4103570342920761E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2558365288405956E-006           OLP:   -5.2558365288406761E-006
ABS integral  = 0.9029E-06  +/-  0.2251E-08  (   0.249 %)
Integral      = 0.5129E-06  +/-  0.2461E-08  (   0.480 %)
Virtual       = 0.8021E-09  +/-  0.1059E-08  ( 132.025 %)
Virtual ratio = -.1933E+00  +/-  0.4126E-03  (   0.213 %)
ABS virtual   = 0.4832E-06  +/-  0.8393E-09  (   0.174 %)
Born          = 0.1900E-05  +/-  0.2711E-08  (   0.143 %)
V  2          = 0.8021E-09  +/-  0.1059E-08  ( 132.025 %)
B  2          = 0.1900E-05  +/-  0.2711E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9029E-06  +/-  0.2251E-08  (   0.249 %)
accumulated results Integral      = 0.5129E-06  +/-  0.2461E-08  (   0.480 %)
accumulated results Virtual       = 0.8021E-09  +/-  0.1059E-08  ( 132.025 %)
accumulated results Virtual ratio = -.1933E+00  +/-  0.4126E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4832E-06  +/-  0.8393E-09  (   0.174 %)
accumulated results Born          = 0.1900E-05  +/-  0.2711E-08  (   0.143 %)
accumulated results V  2          = 0.8021E-09  +/-  0.1059E-08  ( 132.025 %)
accumulated results B  2          = 0.1900E-05  +/-  0.2711E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   203468    24013  0.3276E-06  0.1856E-06  0.9755E+00
channel    2 :     1 T   208532    24468  0.3379E-06  0.1983E-06  0.6685E+00
channel    3 :     2 T    73438     8219  0.1179E-06  0.6174E-07  0.9048E+00
channel    4 :     2 T    74437     8835  0.1196E-06  0.6731E-07  0.9485E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0294898040313620E-007  +/-   2.2511908030159644E-009
 Final result:   5.1290993880020838E-007  +/-   2.4605342512132606E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406050
   Stability unknown:                                          0
   Stable PS point:                                       406050
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406050
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406050
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.50864804    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.62305832    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.31400251    
 Time spent in Integrated_CT :    9.82977295    
 Time spent in Virtuals :    590.149353    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.44121742    
 Time spent in N1body_prefactor :   0.790770054    
 Time spent in Adding_alphas_pdf :    10.3951397    
 Time spent in Reweight_scale :    45.0275040    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.8522549    
 Time spent in Applying_cuts :    5.62959242    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.1759796    
 Time spent in Other_tasks :    24.8356934    
 Time spent in Total :    758.572937    
Time in seconds: 844



LOG file for integration channel /P0_uux_emep/all_G1_69, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3943
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          69
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 217833
  with seed                   49
 Ranmar initialization seeds         124       16690
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.440439D+04 0.440439D+04  1.00
 muF1, muF1_reference: 0.440439D+04 0.440439D+04  1.00
 muF2, muF2_reference: 0.440439D+04 0.440439D+04  1.00
 QES,  QES_reference:  0.440439D+04 0.440439D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4704504488416965E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4076834061690591E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4182214947838565E-005           OLP:   -1.4182214947838553E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1180780153609603E-006           OLP:   -5.1180780153610789E-006
  FINITE:
           OLP:   -9.5075663536184417E-004
           BORN:    4.0872560810380956E-003
  MOMENTA (Exyzm): 
           1   2409.9299061601773        0.0000000000000000        0.0000000000000000        2409.9299061601773        0.0000000000000000     
           2   2409.9299061601773       -0.0000000000000000       -0.0000000000000000       -2409.9299061601773        0.0000000000000000     
           3   2409.9299061601773       -1685.6465089876822       -1102.5245870140795        1323.1770608547727        0.0000000000000000     
           4   2409.9299061601773        1685.6465089876822        1102.5245870140795       -1323.1770608547727        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4182214947838565E-005           OLP:   -1.4182214947838553E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1180780153609611E-006           OLP:   -5.1180780153610789E-006
ABS integral  = 0.9028E-06  +/-  0.1871E-08  (   0.207 %)
Integral      = 0.5158E-06  +/-  0.2117E-08  (   0.410 %)
Virtual       = 0.1320E-08  +/-  0.1064E-08  (  80.614 %)
Virtual ratio = -.1931E+00  +/-  0.4126E-03  (   0.214 %)
ABS virtual   = 0.4844E-06  +/-  0.8448E-09  (   0.174 %)
Born          = 0.1900E-05  +/-  0.2714E-08  (   0.143 %)
V  2          = 0.1320E-08  +/-  0.1064E-08  (  80.614 %)
B  2          = 0.1900E-05  +/-  0.2714E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9028E-06  +/-  0.1871E-08  (   0.207 %)
accumulated results Integral      = 0.5158E-06  +/-  0.2117E-08  (   0.410 %)
accumulated results Virtual       = 0.1320E-08  +/-  0.1064E-08  (  80.614 %)
accumulated results Virtual ratio = -.1931E+00  +/-  0.4126E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4844E-06  +/-  0.8448E-09  (   0.174 %)
accumulated results Born          = 0.1900E-05  +/-  0.2714E-08  (   0.143 %)
accumulated results V  2          = 0.1320E-08  +/-  0.1064E-08  (  80.614 %)
accumulated results B  2          = 0.1900E-05  +/-  0.2714E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   203778    24013  0.3280E-06  0.1849E-06  0.9495E+00
channel    2 :     1 T   208649    24468  0.3371E-06  0.2031E-06  0.9467E+00
channel    3 :     2 T    72919     8219  0.1170E-06  0.6291E-07  0.1000E+01
channel    4 :     2 T    74523     8835  0.1206E-06  0.6491E-07  0.9071E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0277935710094614E-007  +/-   1.8705899064660165E-009
 Final result:   5.1575980876939920E-007  +/-   2.1165283220032460E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405849
   Stability unknown:                                          0
   Stable PS point:                                       405849
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405849
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405849
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.52198756    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.65901852    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.33033085    
 Time spent in Integrated_CT :    9.66278076    
 Time spent in Virtuals :    584.943970    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.47292995    
 Time spent in N1body_prefactor :   0.869709849    
 Time spent in Adding_alphas_pdf :    10.2856884    
 Time spent in Reweight_scale :    45.2816238    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.6890812    
 Time spent in Applying_cuts :    5.56632090    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.9233665    
 Time spent in Other_tasks :    25.1644287    
 Time spent in Total :    753.371216    
Time in seconds: 844



LOG file for integration channel /P0_uux_emep/all_G1_70, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3932
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          70
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 220990
  with seed                   49
 Ranmar initialization seeds         124       19847
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.438431D+04 0.438431D+04  1.00
 muF1, muF1_reference: 0.438431D+04 0.438431D+04  1.00
 muF2, muF2_reference: 0.438431D+04 0.438431D+04  1.00
 QES,  QES_reference:  0.438431D+04 0.438431D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4736625370431006E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4069725171189024E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
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 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4106630596313657E-005           OLP:   -1.4106630596313651E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2504647034095374E-006           OLP:   -5.2504647034095188E-006
  FINITE:
           OLP:   -9.4422014453562648E-004
           BORN:    4.0654729814631882E-003
  MOMENTA (Exyzm): 
           1   2412.4137133425857        0.0000000000000000        0.0000000000000000        2412.4137133425857        0.0000000000000000     
           2   2412.4137133425857       -0.0000000000000000       -0.0000000000000000       -2412.4137133425857        0.0000000000000000     
           3   2412.4137133425857       -1920.3092309170797       -636.47261159833795        1314.1746446584671        0.0000000000000000     
           4   2412.4137133425857        1920.3092309170797        636.47261159833795       -1314.1746446584671        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4106630596313657E-005           OLP:   -1.4106630596313651E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2504647034095374E-006           OLP:   -5.2504647034095188E-006
ABS integral  = 0.9025E-06  +/-  0.1803E-08  (   0.200 %)
Integral      = 0.5138E-06  +/-  0.2057E-08  (   0.400 %)
Virtual       = 0.6744E-10  +/-  0.1061E-08  ( ******* %)
Virtual ratio = -.1936E+00  +/-  0.4130E-03  (   0.213 %)
ABS virtual   = 0.4832E-06  +/-  0.8415E-09  (   0.174 %)
Born          = 0.1898E-05  +/-  0.2708E-08  (   0.143 %)
V  2          = 0.6744E-10  +/-  0.1061E-08  ( ******* %)
B  2          = 0.1898E-05  +/-  0.2708E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9025E-06  +/-  0.1803E-08  (   0.200 %)
accumulated results Integral      = 0.5138E-06  +/-  0.2057E-08  (   0.400 %)
accumulated results Virtual       = 0.6744E-10  +/-  0.1061E-08  ( ******* %)
accumulated results Virtual ratio = -.1936E+00  +/-  0.4130E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4832E-06  +/-  0.8415E-09  (   0.174 %)
accumulated results Born          = 0.1898E-05  +/-  0.2708E-08  (   0.143 %)
accumulated results V  2          = 0.6744E-10  +/-  0.1061E-08  ( ******* %)
accumulated results B  2          = 0.1898E-05  +/-  0.2708E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                     2                       3                         4
channel    1 :     1 T   204260    24013  0.3302E-06  0.1862E-06  0.1000E+01
channel    2 :     1 T   208784    24468  0.3375E-06  0.1997E-06  0.9465E+00
channel    3 :     2 T    72434     8219  0.1159E-06  0.6193E-07  0.1000E+01
channel    4 :     2 T    74392     8835  0.1189E-06  0.6606E-07  0.9320E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0245342169402603E-007  +/-   1.8027060338823693E-009
 Final result:   5.1382777751964987E-007  +/-   2.0573858645468003E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405910
   Stability unknown:                                          0
   Stable PS point:                                       405910
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405910
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405910
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.52303600    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.66691113    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.36559248    
 Time spent in Integrated_CT :    9.64074707    
 Time spent in Virtuals :    586.176880    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.48144054    
 Time spent in N1body_prefactor :   0.809533179    
 Time spent in Adding_alphas_pdf :    10.2927389    
 Time spent in Reweight_scale :    45.3925209    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.6512089    
 Time spent in Applying_cuts :    5.51043892    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.9746552    
 Time spent in Other_tasks :    24.9839478    
 Time spent in Total :    754.469604    
Time in seconds: 845



LOG file for integration channel /P0_uux_emep/all_G1_71, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3928
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          71
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 224147
  with seed                   49
 Ranmar initialization seeds         124       23004
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.439089D+04 0.439089D+04  1.00
 muF1, muF1_reference: 0.439089D+04 0.439089D+04  1.00
 muF2, muF2_reference: 0.439089D+04 0.439089D+04  1.00
 QES,  QES_reference:  0.439089D+04 0.439089D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4726080023748781E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4055479837608684E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4096986353223529E-005           OLP:   -1.4096986353223509E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2671627551545977E-006           OLP:   -5.2671627551547121E-006
  FINITE:
           OLP:   -9.4445732161626910E-004
           BORN:    4.0626935502275094E-003
  MOMENTA (Exyzm): 
           1   2417.4001622747269        0.0000000000000000        0.0000000000000000        2417.4001622747269        0.0000000000000000     
           2   2417.4001622747269       -0.0000000000000000       -0.0000000000000000       -2417.4001622747269        0.0000000000000000     
           3   2417.4001622747269       -2002.5847022356331       -320.57157131097898        1315.5652483267058        0.0000000000000000     
           4   2417.4001622747269        2002.5847022356331        320.57157131097898       -1315.5652483267058        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4096986353223529E-005           OLP:   -1.4096986353223509E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2671627551545986E-006           OLP:   -5.2671627551547121E-006
ABS integral  = 0.9016E-06  +/-  0.1840E-08  (   0.204 %)
Integral      = 0.5166E-06  +/-  0.2088E-08  (   0.404 %)
Virtual       = 0.3875E-09  +/-  0.1060E-08  ( 273.575 %)
Virtual ratio = -.1934E+00  +/-  0.4130E-03  (   0.214 %)
ABS virtual   = 0.4839E-06  +/-  0.8398E-09  (   0.174 %)
Born          = 0.1901E-05  +/-  0.2710E-08  (   0.143 %)
V  2          = 0.3875E-09  +/-  0.1060E-08  ( 273.575 %)
B  2          = 0.1901E-05  +/-  0.2710E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9016E-06  +/-  0.1840E-08  (   0.204 %)
accumulated results Integral      = 0.5166E-06  +/-  0.2088E-08  (   0.404 %)
accumulated results Virtual       = 0.3875E-09  +/-  0.1060E-08  ( 273.575 %)
accumulated results Virtual ratio = -.1934E+00  +/-  0.4130E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4839E-06  +/-  0.8398E-09  (   0.174 %)
accumulated results Born          = 0.1901E-05  +/-  0.2710E-08  (   0.143 %)
accumulated results V  2          = 0.3875E-09  +/-  0.1060E-08  ( 273.575 %)
accumulated results B  2          = 0.1901E-05  +/-  0.2710E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                   2                        3                         4
channel    1 :     1 T   204320    24013  0.3288E-06  0.1865E-06  0.1000E+01
channel    2 :     1 T   208122    24468  0.3355E-06  0.1985E-06  0.9218E+00
channel    3 :     2 T    73422     8219  0.1176E-06  0.6328E-07  0.9476E+00
channel    4 :     2 T    74007     8835  0.1197E-06  0.6836E-07  0.9561E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0163725136001251E-007  +/-   1.8402000560296646E-009
 Final result:   5.1659194305010195E-007  +/-   2.0884698955931414E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405826
   Stability unknown:                                          0
   Stable PS point:                                       405826
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405826
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405826
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.51727486    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.65178919    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.31348515    
 Time spent in Integrated_CT :    9.63830566    
 Time spent in Virtuals :    585.049133    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.35903263    
 Time spent in N1body_prefactor :   0.791597962    
 Time spent in Adding_alphas_pdf :    10.2905922    
 Time spent in Reweight_scale :    45.5190926    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.7806883    
 Time spent in Applying_cuts :    5.56290245    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.9270630    
 Time spent in Other_tasks :    24.9174805    
 Time spent in Total :    753.318481    
Time in seconds: 845



LOG file for integration channel /P0_uux_emep/all_G1_72, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3934
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          72
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 227304
  with seed                   49
 Ranmar initialization seeds         124       26161
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.437030D+04 0.437030D+04  1.00
 muF1, muF1_reference: 0.437030D+04 0.437030D+04  1.00
 muF2, muF2_reference: 0.437030D+04 0.437030D+04  1.00
 QES,  QES_reference:  0.437030D+04 0.437030D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4759135372971630E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4116122694305397E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4165575492384376E-005           OLP:   -1.4165575492384359E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1475131357639180E-006           OLP:   -5.1475131357640078E-006
  FINITE:
           OLP:   -9.4602584622444086E-004
           BORN:    4.0824606583385785E-003
  MOMENTA (Exyzm): 
           1   2396.2576366139092        0.0000000000000000        0.0000000000000000        2396.2576366139092        0.0000000000000000     
           2   2396.2576366139092       -0.0000000000000000       -0.0000000000000000       -2396.2576366139092        0.0000000000000000     
           3   2396.2576366139092       -1865.8732697667281       -731.81112429154018        1313.4001981740555        0.0000000000000000     
           4   2396.2576366139092        1865.8732697667281        731.81112429154018       -1313.4001981740555        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4165575492384376E-005           OLP:   -1.4165575492384359E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1475131357639188E-006           OLP:   -5.1475131357640078E-006
ABS integral  = 0.9036E-06  +/-  0.1867E-08  (   0.207 %)
Integral      = 0.5132E-06  +/-  0.2115E-08  (   0.412 %)
Virtual       = -.8698E-09  +/-  0.1059E-08  ( 121.794 %)
Virtual ratio = -.1942E+00  +/-  0.4124E-03  (   0.212 %)
ABS virtual   = 0.4840E-06  +/-  0.8390E-09  (   0.173 %)
Born          = 0.1901E-05  +/-  0.2704E-08  (   0.142 %)
V  2          = -.8698E-09  +/-  0.1059E-08  ( 121.794 %)
B  2          = 0.1901E-05  +/-  0.2704E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9036E-06  +/-  0.1867E-08  (   0.207 %)
accumulated results Integral      = 0.5132E-06  +/-  0.2115E-08  (   0.412 %)
accumulated results Virtual       = -.8698E-09  +/-  0.1059E-08  ( 121.794 %)
accumulated results Virtual ratio = -.1942E+00  +/-  0.4124E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4840E-06  +/-  0.8390E-09  (   0.173 %)
accumulated results Born          = 0.1901E-05  +/-  0.2704E-08  (   0.142 %)
accumulated results V  2          = -.8698E-09  +/-  0.1059E-08  ( 121.794 %)
accumulated results B  2          = 0.1901E-05  +/-  0.2704E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   204291    24013  0.3288E-06  0.1847E-06  0.9820E+00
channel    2 :     1 T   207826    24468  0.3366E-06  0.1980E-06  0.8993E+00
channel    3 :     2 T    73417     8219  0.1182E-06  0.6257E-07  0.9609E+00
channel    4 :     2 T    74340     8835  0.1201E-06  0.6798E-07  0.9786E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0364929276019629E-007  +/-   1.8666587981724593E-009
 Final result:   5.1322014944461484E-007  +/-   2.1148227014143212E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406476
   Stability unknown:                                          0
   Stable PS point:                                       406476
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406476
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406476
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.51594663    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.64195156    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.38028717    
 Time spent in Integrated_CT :    9.77868652    
 Time spent in Virtuals :    585.664734    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.42698383    
 Time spent in N1body_prefactor :   0.799561739    
 Time spent in Adding_alphas_pdf :    10.3630171    
 Time spent in Reweight_scale :    45.6062508    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.0019865    
 Time spent in Applying_cuts :    5.67745543    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.8441849    
 Time spent in Other_tasks :    25.0803833    
 Time spent in Total :    754.781494    
Time in seconds: 844



LOG file for integration channel /P0_uux_emep/all_G1_73, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3924
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          73
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 230461
  with seed                   49
 Ranmar initialization seeds         124       29318
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.420568D+04 0.420568D+04  1.00
 muF1, muF1_reference: 0.420568D+04 0.420568D+04  1.00
 muF2, muF2_reference: 0.420568D+04 0.420568D+04  1.00
 QES,  QES_reference:  0.420568D+04 0.420568D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5030213806700580E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4054269642791118E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4153566615885782E-005           OLP:   -1.4153566615885794E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1684784229451664E-006           OLP:   -5.1684784229453426E-006
  FINITE:
           OLP:   -9.4988133456310820E-004
           BORN:    4.0789997494695591E-003
  MOMENTA (Exyzm): 
           1   2417.8243469064182        0.0000000000000000        0.0000000000000000        2417.8243469064182        0.0000000000000000     
           2   2417.8243469064182       -0.0000000000000000       -0.0000000000000000       -2417.8243469064182        0.0000000000000000     
           3   2417.8243469064182       -1989.3316837054024       -369.55199640802209        1323.5805025196321        0.0000000000000000     
           4   2417.8243469064182        1989.3316837054024        369.55199640802209       -1323.5805025196321        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4153566615885782E-005           OLP:   -1.4153566615885794E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1684784229451698E-006           OLP:   -5.1684784229453426E-006
ABS integral  = 0.9005E-06  +/-  0.1960E-08  (   0.218 %)
Integral      = 0.5122E-06  +/-  0.2196E-08  (   0.429 %)
Virtual       = -.1403E-08  +/-  0.1056E-08  (  75.249 %)
Virtual ratio = -.1938E+00  +/-  0.4125E-03  (   0.213 %)
ABS virtual   = 0.4829E-06  +/-  0.8356E-09  (   0.173 %)
Born          = 0.1899E-05  +/-  0.2702E-08  (   0.142 %)
V  2          = -.1403E-08  +/-  0.1056E-08  (  75.249 %)
B  2          = 0.1899E-05  +/-  0.2702E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9005E-06  +/-  0.1960E-08  (   0.218 %)
accumulated results Integral      = 0.5122E-06  +/-  0.2196E-08  (   0.429 %)
accumulated results Virtual       = -.1403E-08  +/-  0.1056E-08  (  75.249 %)
accumulated results Virtual ratio = -.1938E+00  +/-  0.4125E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4829E-06  +/-  0.8356E-09  (   0.173 %)
accumulated results Born          = 0.1899E-05  +/-  0.2702E-08  (   0.142 %)
accumulated results V  2          = -.1403E-08  +/-  0.1056E-08  (  75.249 %)
accumulated results B  2          = 0.1899E-05  +/-  0.2702E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                     2                       3                         4
channel    1 :     1 T   203927    24013  0.3277E-06  0.1831E-06  0.8444E+00
channel    2 :     1 T   208411    24468  0.3366E-06  0.1999E-06  0.9375E+00
channel    3 :     2 T    73096     8219  0.1163E-06  0.6223E-07  0.1000E+01
channel    4 :     2 T    74436     8835  0.1199E-06  0.6701E-07  0.9175E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0049012861828670E-007  +/-   1.9604102202120540E-009
 Final result:   5.1215719861099547E-007  +/-   2.1961408941517583E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406268
   Stability unknown:                                          0
   Stable PS point:                                       406268
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406268
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406268
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.53002858    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.63734722    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.35721493    
 Time spent in Integrated_CT :    9.76770020    
 Time spent in Virtuals :    587.469727    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.48804665    
 Time spent in N1body_prefactor :   0.794090390    
 Time spent in Adding_alphas_pdf :    10.4818020    
 Time spent in Reweight_scale :    45.6087799    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.9696426    
 Time spent in Applying_cuts :    5.56076384    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.8201904    
 Time spent in Other_tasks :    25.1273193    
 Time spent in Total :    756.612671    
Time in seconds: 844



LOG file for integration channel /P0_uux_emep/all_G1_74, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3923
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          74
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 233618
  with seed                   49
 Ranmar initialization seeds         124        2394
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.419901D+04 0.419901D+04  1.00
 muF1, muF1_reference: 0.419901D+04 0.419901D+04  1.00
 muF2, muF2_reference: 0.419901D+04 0.419901D+04  1.00
 QES,  QES_reference:  0.419901D+04 0.419901D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5041454236740524E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4102350668170003E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4141107606238108E-005           OLP:   -1.4141107606238099E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1904284906311735E-006           OLP:   -5.1904284906311955E-006
  FINITE:
           OLP:   -9.4483743853657491E-004
           BORN:    4.0754091140763242E-003
  MOMENTA (Exyzm): 
           1   2401.0396672373845        0.0000000000000000        0.0000000000000000        2401.0396672373845        0.0000000000000000     
           2   2401.0396672373845       -0.0000000000000000       -0.0000000000000000       -2401.0396672373845        0.0000000000000000     
           3   2401.0396672373845       -1116.3077681279842       -1672.0371510832799        1312.6843550000274        0.0000000000000000     
           4   2401.0396672373845        1116.3077681279842        1672.0371510832799       -1312.6843550000274        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4141107606238108E-005           OLP:   -1.4141107606238099E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1904284906311709E-006           OLP:   -5.1904284906311955E-006
ABS integral  = 0.9040E-06  +/-  0.1794E-08  (   0.198 %)
Integral      = 0.5177E-06  +/-  0.2049E-08  (   0.396 %)
Virtual       = 0.1519E-09  +/-  0.1062E-08  ( 699.092 %)
Virtual ratio = -.1932E+00  +/-  0.4125E-03  (   0.213 %)
ABS virtual   = 0.4845E-06  +/-  0.8413E-09  (   0.174 %)
Born          = 0.1903E-05  +/-  0.2713E-08  (   0.143 %)
V  2          = 0.1519E-09  +/-  0.1062E-08  ( 699.092 %)
B  2          = 0.1903E-05  +/-  0.2713E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9040E-06  +/-  0.1794E-08  (   0.198 %)
accumulated results Integral      = 0.5177E-06  +/-  0.2049E-08  (   0.396 %)
accumulated results Virtual       = 0.1519E-09  +/-  0.1062E-08  ( 699.092 %)
accumulated results Virtual ratio = -.1932E+00  +/-  0.4125E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4845E-06  +/-  0.8413E-09  (   0.174 %)
accumulated results Born          = 0.1903E-05  +/-  0.2713E-08  (   0.143 %)
accumulated results V  2          = 0.1519E-09  +/-  0.1062E-08  ( 699.092 %)
accumulated results B  2          = 0.1903E-05  +/-  0.2713E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   203641    24013  0.3286E-06  0.1850E-06  0.1000E+01
channel    2 :     1 T   208644    24468  0.3373E-06  0.2014E-06  0.9406E+00
channel    3 :     2 T    73279     8219  0.1184E-06  0.6255E-07  0.9869E+00
channel    4 :     2 T    74308     8835  0.1198E-06  0.6873E-07  0.9731E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0403664572037505E-007  +/-   1.7935565497331442E-009
 Final result:   5.1772031165781132E-007  +/-   2.0488702292623896E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406425
   Stability unknown:                                          0
   Stable PS point:                                       406425
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406425
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406425
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.52244520    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.73760700    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.39353609    
 Time spent in Integrated_CT :    9.81164551    
 Time spent in Virtuals :    588.873657    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.41821575    
 Time spent in N1body_prefactor :   0.800330460    
 Time spent in Adding_alphas_pdf :    10.3659592    
 Time spent in Reweight_scale :    45.2386017    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.6321945    
 Time spent in Applying_cuts :    5.58101034    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.2145996    
 Time spent in Other_tasks :    25.0957642    
 Time spent in Total :    757.685547    
Time in seconds: 844



LOG file for integration channel /P0_uux_emep/all_G1_75, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3955
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          75
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 236775
  with seed                   49
 Ranmar initialization seeds         124        5551
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.444140D+04 0.444140D+04  1.00
 muF1, muF1_reference: 0.444140D+04 0.444140D+04  1.00
 muF2, muF2_reference: 0.444140D+04 0.444140D+04  1.00
 QES,  QES_reference:  0.444140D+04 0.444140D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4645764056128758E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4112141805307952E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4138464918182514E-005           OLP:   -1.4138464918182505E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1950755321442228E-006           OLP:   -5.1950755321444295E-006
  FINITE:
           OLP:   -9.4380300825304907E-004
           BORN:    4.0746475022360555E-003
  MOMENTA (Exyzm): 
           1   2397.6387419552693        0.0000000000000000        0.0000000000000000        2397.6387419552693        0.0000000000000000     
           2   2397.6387419552693       -0.0000000000000000       -0.0000000000000000       -2397.6387419552693        0.0000000000000000     
           3   2397.6387419552693       -1672.2033924267328       -1111.3475923004278        1310.4632312161280        0.0000000000000000     
           4   2397.6387419552693        1672.2033924267328        1111.3475923004278       -1310.4632312161280        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4138464918182514E-005           OLP:   -1.4138464918182505E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1950755321442245E-006           OLP:   -5.1950755321444295E-006
ABS integral  = 0.9028E-06  +/-  0.1892E-08  (   0.210 %)
Integral      = 0.5151E-06  +/-  0.2136E-08  (   0.415 %)
Virtual       = 0.1513E-09  +/-  0.1059E-08  ( 699.681 %)
Virtual ratio = -.1936E+00  +/-  0.4119E-03  (   0.213 %)
ABS virtual   = 0.4830E-06  +/-  0.8390E-09  (   0.174 %)
Born          = 0.1900E-05  +/-  0.2705E-08  (   0.142 %)
V  2          = 0.1513E-09  +/-  0.1059E-08  ( 699.681 %)
B  2          = 0.1900E-05  +/-  0.2705E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9028E-06  +/-  0.1892E-08  (   0.210 %)
accumulated results Integral      = 0.5151E-06  +/-  0.2136E-08  (   0.415 %)
accumulated results Virtual       = 0.1513E-09  +/-  0.1059E-08  ( 699.681 %)
accumulated results Virtual ratio = -.1936E+00  +/-  0.4119E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4830E-06  +/-  0.8390E-09  (   0.174 %)
accumulated results Born          = 0.1900E-05  +/-  0.2705E-08  (   0.142 %)
accumulated results V  2          = 0.1513E-09  +/-  0.1059E-08  ( 699.681 %)
accumulated results B  2          = 0.1900E-05  +/-  0.2705E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   203324    24013  0.3269E-06  0.1854E-06  0.9660E+00
channel    2 :     1 T   208752    24468  0.3371E-06  0.1988E-06  0.9015E+00
channel    3 :     2 T    73220     8219  0.1177E-06  0.6358E-07  0.1000E+01
channel    4 :     2 T    74575     8835  0.1211E-06  0.6731E-07  0.8923E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0281319869891534E-007  +/-   1.8922731125502099E-009
 Final result:   5.1506783391980657E-007  +/-   2.1360398556645423E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406248
   Stability unknown:                                          0
   Stable PS point:                                       406248
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406248
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406248
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.51021075    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.64386272    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.44432926    
 Time spent in Integrated_CT :    9.80285645    
 Time spent in Virtuals :    589.236694    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.49650764    
 Time spent in N1body_prefactor :   0.799606204    
 Time spent in Adding_alphas_pdf :    10.3577719    
 Time spent in Reweight_scale :    45.3457260    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.0982370    
 Time spent in Applying_cuts :    5.69600296    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.9296112    
 Time spent in Other_tasks :    25.3327637    
 Time spent in Total :    758.694214    
Time in seconds: 845



LOG file for integration channel /P0_uux_emep/all_G1_76, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3933
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          76
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 239932
  with seed                   49
 Ranmar initialization seeds         124        8708
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.429365D+04 0.429365D+04  1.00
 muF1, muF1_reference: 0.429365D+04 0.429365D+04  1.00
 muF2, muF2_reference: 0.429365D+04 0.429365D+04  1.00
 QES,  QES_reference:  0.429365D+04 0.429365D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4883827710972073E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4052038483257490E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4023994665932165E-005           OLP:   -1.4023994665932170E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3925879371800695E-006           OLP:   -5.3925879371800585E-006
  FINITE:
           OLP:   -9.3787022359472253E-004
           BORN:    4.0416576458328773E-003
  MOMENTA (Exyzm): 
           1   2418.6066222630002        0.0000000000000000        0.0000000000000000        2418.6066222630002        0.0000000000000000     
           2   2418.6066222630002       -0.0000000000000000       -0.0000000000000000       -2418.6066222630002        0.0000000000000000     
           3   2418.6066222630002       -2030.1712041948083       -148.44509964015072        1306.1496573155262        0.0000000000000000     
           4   2418.6066222630002        2030.1712041948083        148.44509964015072       -1306.1496573155262        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4023994665932165E-005           OLP:   -1.4023994665932170E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3925879371800737E-006           OLP:   -5.3925879371800585E-006
ABS integral  = 0.9033E-06  +/-  0.1869E-08  (   0.207 %)
Integral      = 0.5172E-06  +/-  0.2115E-08  (   0.409 %)
Virtual       = -.7309E-09  +/-  0.1058E-08  ( 144.766 %)
Virtual ratio = -.1939E+00  +/-  0.4124E-03  (   0.213 %)
ABS virtual   = 0.4835E-06  +/-  0.8379E-09  (   0.173 %)
Born          = 0.1902E-05  +/-  0.2701E-08  (   0.142 %)
V  2          = -.7309E-09  +/-  0.1058E-08  ( 144.766 %)
B  2          = 0.1902E-05  +/-  0.2701E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9033E-06  +/-  0.1869E-08  (   0.207 %)
accumulated results Integral      = 0.5172E-06  +/-  0.2115E-08  (   0.409 %)
accumulated results Virtual       = -.7309E-09  +/-  0.1058E-08  ( 144.766 %)
accumulated results Virtual ratio = -.1939E+00  +/-  0.4124E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4835E-06  +/-  0.8379E-09  (   0.173 %)
accumulated results Born          = 0.1902E-05  +/-  0.2701E-08  (   0.142 %)
accumulated results V  2          = -.7309E-09  +/-  0.1058E-08  ( 144.766 %)
accumulated results B  2          = 0.1902E-05  +/-  0.2701E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                   2                        3                         4
channel    1 :     1 T   203731    24013  0.3283E-06  0.1845E-06  0.9471E+00
channel    2 :     1 T   207633    24468  0.3368E-06  0.2012E-06  0.9276E+00
channel    3 :     2 T    73475     8219  0.1176E-06  0.6259E-07  0.9588E+00
channel    4 :     2 T    75027     8835  0.1206E-06  0.6891E-07  0.9683E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0332634980048073E-007  +/-   1.8688837605184413E-009
 Final result:   5.1718290087690008E-007  +/-   2.1148170267910179E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406311
   Stability unknown:                                          0
   Stable PS point:                                       406311
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406311
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406311
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.51216710    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.63569164    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.33920336    
 Time spent in Integrated_CT :    9.74328613    
 Time spent in Virtuals :    589.727173    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.37149811    
 Time spent in N1body_prefactor :   0.808081567    
 Time spent in Adding_alphas_pdf :    10.3494835    
 Time spent in Reweight_scale :    45.5698471    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.7300415    
 Time spent in Applying_cuts :    5.60475206    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.8427048    
 Time spent in Other_tasks :    25.0365601    
 Time spent in Total :    758.270508    
Time in seconds: 844



LOG file for integration channel /P0_uux_emep/all_G1_77, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3920
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          77
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 243089
  with seed                   49
 Ranmar initialization seeds         124       11865
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.444848D+04 0.444848D+04  1.00
 muF1, muF1_reference: 0.444848D+04 0.444848D+04  1.00
 muF2, muF2_reference: 0.444848D+04 0.444848D+04  1.00
 QES,  QES_reference:  0.444848D+04 0.444848D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4634596122272509E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4135393743911898E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.3997320512700543E-005           OLP:   -1.3997320512700520E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.4380918871769253E-006           OLP:   -5.4380918871769363E-006
  FINITE:
           OLP:   -9.2874298665403861E-004
           BORN:    4.0339702644609631E-003
  MOMENTA (Exyzm): 
           1   2389.5852788698635        0.0000000000000000        0.0000000000000000        2389.5852788698635        0.0000000000000000     
           2   2389.5852788698635       -0.0000000000000000       -0.0000000000000000       -2389.5852788698635        0.0000000000000000     
           3   2389.5852788698635       -2006.1386064519565       -172.10341076867067        1286.8201555370335        0.0000000000000000     
           4   2389.5852788698635        2006.1386064519565        172.10341076867067       -1286.8201555370335        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.3997320512700543E-005           OLP:   -1.3997320512700520E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.4380918871769253E-006           OLP:   -5.4380918871769363E-006
 Error #15 in genps_fks.f  -1.1138617992401123E-006           4
ABS integral  = 0.9031E-06  +/-  0.2153E-08  (   0.238 %)
Integral      = 0.5126E-06  +/-  0.2371E-08  (   0.463 %)
Virtual       = 0.3403E-09  +/-  0.1057E-08  ( 310.701 %)
Virtual ratio = -.1935E+00  +/-  0.4126E-03  (   0.213 %)
ABS virtual   = 0.4829E-06  +/-  0.8375E-09  (   0.173 %)
Born          = 0.1898E-05  +/-  0.2709E-08  (   0.143 %)
V  2          = 0.3403E-09  +/-  0.1057E-08  ( 310.701 %)
B  2          = 0.1898E-05  +/-  0.2709E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9031E-06  +/-  0.2153E-08  (   0.238 %)
accumulated results Integral      = 0.5126E-06  +/-  0.2371E-08  (   0.463 %)
accumulated results Virtual       = 0.3403E-09  +/-  0.1057E-08  ( 310.701 %)
accumulated results Virtual ratio = -.1935E+00  +/-  0.4126E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4829E-06  +/-  0.8375E-09  (   0.173 %)
accumulated results Born          = 0.1898E-05  +/-  0.2709E-08  (   0.143 %)
accumulated results V  2          = 0.3403E-09  +/-  0.1057E-08  ( 310.701 %)
accumulated results B  2          = 0.1898E-05  +/-  0.2709E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   203727    24013  0.3284E-06  0.1842E-06  0.9864E+00
channel    2 :     1 T   208437    24468  0.3357E-06  0.2000E-06  0.9383E+00
channel    3 :     2 T    73026     8219  0.1163E-06  0.6137E-07  0.9413E+00
channel    4 :     2 T    74682     8835  0.1226E-06  0.6708E-07  0.5519E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0312955478238552E-007  +/-   2.1526627812458956E-009
 Final result:   5.1263739461445558E-007  +/-   2.3709507721799922E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405798
   Stability unknown:                                          0
   Stable PS point:                                       405798
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405798
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405798
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.52893698    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.66121864    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.34375668    
 Time spent in Integrated_CT :    9.74566650    
 Time spent in Virtuals :    588.874207    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.56267834    
 Time spent in N1body_prefactor :   0.820631981    
 Time spent in Adding_alphas_pdf :    10.2015295    
 Time spent in Reweight_scale :    45.3882866    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.8039780    
 Time spent in Applying_cuts :    5.59440517    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.0516357    
 Time spent in Other_tasks :    25.0405884    
 Time spent in Total :    757.617554    
Time in seconds: 844



LOG file for integration channel /P0_uux_emep/all_G1_78, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3938
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          78
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 246246
  with seed                   49
 Ranmar initialization seeds         124       15022
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.396473D+04 0.396473D+04  1.00
 muF1, muF1_reference: 0.396473D+04 0.396473D+04  1.00
 muF2, muF2_reference: 0.396473D+04 0.396473D+04  1.00
 QES,  QES_reference:  0.396473D+04 0.396473D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5450477010294337E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4045904371180041E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4055547665370609E-005           OLP:   -1.4055547665370606E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3386091837415392E-006           OLP:   -5.3386091837412512E-006
  FINITE:
           OLP:   -9.4132712453855400E-004
           BORN:    4.0507510906370985E-003
  MOMENTA (Exyzm): 
           1   2420.7588849262961        0.0000000000000000        0.0000000000000000        2420.7588849262961        0.0000000000000000     
           2   2420.7588849262961       -0.0000000000000000       -0.0000000000000000       -2420.7588849262961        0.0000000000000000     
           3   2420.7588849262961       -1201.6414315582922       -1641.8406469310514        1311.6747840059934        0.0000000000000000     
           4   2420.7588849262961        1201.6414315582922        1641.8406469310514       -1311.6747840059934        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4055547665370609E-005           OLP:   -1.4055547665370606E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3386091837415358E-006           OLP:   -5.3386091837412512E-006
ABS integral  = 0.9022E-06  +/-  0.2099E-08  (   0.233 %)
Integral      = 0.5140E-06  +/-  0.2321E-08  (   0.452 %)
Virtual       = -.4230E-09  +/-  0.1059E-08  ( 250.300 %)
Virtual ratio = -.1936E+00  +/-  0.4129E-03  (   0.213 %)
ABS virtual   = 0.4833E-06  +/-  0.8390E-09  (   0.174 %)
Born          = 0.1899E-05  +/-  0.2703E-08  (   0.142 %)
V  2          = -.4230E-09  +/-  0.1059E-08  ( 250.300 %)
B  2          = 0.1899E-05  +/-  0.2703E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9022E-06  +/-  0.2099E-08  (   0.233 %)
accumulated results Integral      = 0.5140E-06  +/-  0.2321E-08  (   0.452 %)
accumulated results Virtual       = -.4230E-09  +/-  0.1059E-08  ( 250.300 %)
accumulated results Virtual ratio = -.1936E+00  +/-  0.4129E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4833E-06  +/-  0.8390E-09  (   0.174 %)
accumulated results Born          = 0.1899E-05  +/-  0.2703E-08  (   0.142 %)
accumulated results V  2          = -.4230E-09  +/-  0.1059E-08  ( 250.300 %)
accumulated results B  2          = 0.1899E-05  +/-  0.2703E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                     2                       3                         4
channel    1 :     1 T   204557    24013  0.3294E-06  0.1853E-06  0.1000E+01
channel    2 :     1 T   207573    24468  0.3345E-06  0.1978E-06  0.7378E+00
channel    3 :     2 T    73195     8219  0.1174E-06  0.6284E-07  0.8663E+00
channel    4 :     2 T    74547     8835  0.1209E-06  0.6799E-07  0.9496E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0223378415447505E-007  +/-   2.0986968395511277E-009
 Final result:   5.1395849551863930E-007  +/-   2.3209196521049507E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405963
   Stability unknown:                                          0
   Stable PS point:                                       405963
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405963
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405963
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.49942851    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.66009712    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.32264233    
 Time spent in Integrated_CT :    9.72436523    
 Time spent in Virtuals :    589.478027    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.40413094    
 Time spent in N1body_prefactor :   0.803944349    
 Time spent in Adding_alphas_pdf :    10.2848597    
 Time spent in Reweight_scale :    45.2197189    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.7362070    
 Time spent in Applying_cuts :    5.56971645    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.9986725    
 Time spent in Other_tasks :    25.1346436    
 Time spent in Total :    757.836426    
Time in seconds: 844



LOG file for integration channel /P0_uux_emep/all_G1_79, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3918
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          79
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 249403
  with seed                   49
 Ranmar initialization seeds         124       18179
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.435495D+04 0.435495D+04  1.00
 muF1, muF1_reference: 0.435495D+04 0.435495D+04  1.00
 muF2, muF2_reference: 0.435495D+04 0.435495D+04  1.00
 QES,  QES_reference:  0.435495D+04 0.435495D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4783904442377813E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4098970832008504E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4062692477558072E-005           OLP:   -1.4062692477558067E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3264553748237487E-006           OLP:   -5.3264553748237902E-006
  FINITE:
           OLP:   -9.3775403343550074E-004
           BORN:    4.0528101961554170E-003
  MOMENTA (Exyzm): 
           1   2402.2149820879176        0.0000000000000000        0.0000000000000000        2402.2149820879176        0.0000000000000000     
           2   2402.2149820879176       -0.0000000000000000       -0.0000000000000000       -2402.2149820879176        0.0000000000000000     
           3   2402.2149820879176       -2016.2818349868414       -92.097291737007623        1302.5983536472238        0.0000000000000000     
           4   2402.2149820879176        2016.2818349868414        92.097291737007623       -1302.5983536472238        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4062692477558072E-005           OLP:   -1.4062692477558067E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3264553748237470E-006           OLP:   -5.3264553748237902E-006
ABS integral  = 0.9056E-06  +/-  0.1882E-08  (   0.208 %)
Integral      = 0.5171E-06  +/-  0.2129E-08  (   0.412 %)
Virtual       = 0.1616E-08  +/-  0.1063E-08  (  65.805 %)
Virtual ratio = -.1932E+00  +/-  0.4131E-03  (   0.214 %)
ABS virtual   = 0.4843E-06  +/-  0.8436E-09  (   0.174 %)
Born          = 0.1900E-05  +/-  0.2709E-08  (   0.143 %)
V  2          = 0.1616E-08  +/-  0.1063E-08  (  65.805 %)
B  2          = 0.1900E-05  +/-  0.2709E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9056E-06  +/-  0.1882E-08  (   0.208 %)
accumulated results Integral      = 0.5171E-06  +/-  0.2129E-08  (   0.412 %)
accumulated results Virtual       = 0.1616E-08  +/-  0.1063E-08  (  65.805 %)
accumulated results Virtual ratio = -.1932E+00  +/-  0.4131E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4843E-06  +/-  0.8436E-09  (   0.174 %)
accumulated results Born          = 0.1900E-05  +/-  0.2709E-08  (   0.143 %)
accumulated results V  2          = 0.1616E-08  +/-  0.1063E-08  (  65.805 %)
accumulated results B  2          = 0.1900E-05  +/-  0.2709E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                   2                        3                         4
channel    1 :     1 T   203449    24013  0.3278E-06  0.1862E-06  0.9840E+00
channel    2 :     1 T   208345    24468  0.3388E-06  0.1996E-06  0.8892E+00
channel    3 :     2 T    73332     8219  0.1179E-06  0.6231E-07  0.9864E+00
channel    4 :     2 T    74746     8835  0.1211E-06  0.6899E-07  0.9568E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0559691347581301E-007  +/-   1.8824936387288925E-009
 Final result:   5.1708602260632567E-007  +/-   2.1286197194052208E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405847
   Stability unknown:                                          0
   Stable PS point:                                       405847
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405847
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405847
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.54702926    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.64591408    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.39551210    
 Time spent in Integrated_CT :    9.82513428    
 Time spent in Virtuals :    588.823975    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.55174160    
 Time spent in N1body_prefactor :   0.811518490    
 Time spent in Adding_alphas_pdf :    10.3052616    
 Time spent in Reweight_scale :    45.4328117    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.6372385    
 Time spent in Applying_cuts :    5.63413811    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.0526428    
 Time spent in Other_tasks :    25.4304199    
 Time spent in Total :    758.093384    
Time in seconds: 845



LOG file for integration channel /P0_uux_emep/all_G1_80, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3944
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          80
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 252560
  with seed                   49
 Ranmar initialization seeds         124       21336
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.388090D+04 0.388090D+04  1.00
 muF1, muF1_reference: 0.388090D+04 0.388090D+04  1.00
 muF2, muF2_reference: 0.388090D+04 0.388090D+04  1.00
 QES,  QES_reference:  0.388090D+04 0.388090D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5603867844190986E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4085696857665223E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4291842965470687E-005           OLP:   -1.4291842965470682E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9219787056195239E-006           OLP:   -4.9219787056195612E-006
  FINITE:
           OLP:   -9.6036297747029056E-004
           BORN:    4.1188504253183824E-003
  MOMENTA (Exyzm): 
           1   2406.8375704471009        0.0000000000000000        0.0000000000000000        2406.8375704471009        0.0000000000000000     
           2   2406.8375704471009       -0.0000000000000000       -0.0000000000000000       -2406.8375704471009        0.0000000000000000     
           3   2406.8375704471009       -1239.2895722721164       -1571.9428313681422        1336.4221569113583        0.0000000000000000     
           4   2406.8375704471009        1239.2895722721164        1571.9428313681422       -1336.4221569113583        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4291842965470687E-005           OLP:   -1.4291842965470682E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -4.9219787056195248E-006           OLP:   -4.9219787056195612E-006
ABS integral  = 0.9045E-06  +/-  0.2189E-08  (   0.242 %)
Integral      = 0.5126E-06  +/-  0.2405E-08  (   0.469 %)
Virtual       = -.1415E-08  +/-  0.1061E-08  (  74.971 %)
Virtual ratio = -.1941E+00  +/-  0.4121E-03  (   0.212 %)
ABS virtual   = 0.4843E-06  +/-  0.8406E-09  (   0.174 %)
Born          = 0.1905E-05  +/-  0.2713E-08  (   0.142 %)
V  2          = -.1415E-08  +/-  0.1061E-08  (  74.971 %)
B  2          = 0.1905E-05  +/-  0.2713E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9045E-06  +/-  0.2189E-08  (   0.242 %)
accumulated results Integral      = 0.5126E-06  +/-  0.2405E-08  (   0.469 %)
accumulated results Virtual       = -.1415E-08  +/-  0.1061E-08  (  74.971 %)
accumulated results Virtual ratio = -.1941E+00  +/-  0.4121E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4843E-06  +/-  0.8406E-09  (   0.174 %)
accumulated results Born          = 0.1905E-05  +/-  0.2713E-08  (   0.142 %)
accumulated results V  2          = -.1415E-08  +/-  0.1061E-08  (  74.971 %)
accumulated results B  2          = 0.1905E-05  +/-  0.2713E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   204004    24013  0.3290E-06  0.1829E-06  0.9071E+00
channel    2 :     1 T   208070    24468  0.3374E-06  0.1999E-06  0.7224E+00
channel    3 :     2 T    73163     8219  0.1167E-06  0.6182E-07  0.9860E+00
channel    4 :     2 T    74634     8835  0.1214E-06  0.6793E-07  0.9180E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0453638529824765E-007  +/-   2.1893723885133637E-009
 Final result:   5.1261025825085370E-007  +/-   2.4052845807374153E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406412
   Stability unknown:                                          0
   Stable PS point:                                       406412
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406412
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406412
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.53804803    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.59574795    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.31496525    
 Time spent in Integrated_CT :    9.72320557    
 Time spent in Virtuals :    591.730408    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.46285820    
 Time spent in N1body_prefactor :   0.782271385    
 Time spent in Adding_alphas_pdf :    10.3765631    
 Time spent in Reweight_scale :    45.2505455    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.9502821    
 Time spent in Applying_cuts :    5.63030815    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.9054108    
 Time spent in Other_tasks :    25.1265259    
 Time spent in Total :    760.387085    
Time in seconds: 844



LOG file for integration channel /P0_uux_emep/all_G1_81, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3925
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          81
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 255717
  with seed                   49
 Ranmar initialization seeds         124       24493
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.415364D+04 0.415364D+04  1.00
 muF1, muF1_reference: 0.415364D+04 0.415364D+04  1.00
 muF2, muF2_reference: 0.415364D+04 0.415364D+04  1.00
 QES,  QES_reference:  0.415364D+04 0.415364D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5118513744981269E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4064946813781646E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4003867872080243E-005           OLP:   -1.4003867872080229E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.4268356486450029E-006           OLP:   -5.4268356486464987E-006
  FINITE:
           OLP:   -9.3495104235263447E-004
           BORN:    4.0358571865346908E-003
  MOMENTA (Exyzm): 
           1   2414.0849633886301        0.0000000000000000        0.0000000000000000        2414.0849633886301        0.0000000000000000     
           2   2414.0849633886301       -0.0000000000000000       -0.0000000000000000       -2414.0849633886301        0.0000000000000000     
           3   2414.0849633886301       -1562.0255462287610       -1302.1014950357987        1300.9281686601157        0.0000000000000000     
           4   2414.0849633886301        1562.0255462287610        1302.1014950357987       -1300.9281686601157        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4003867872080243E-005           OLP:   -1.4003867872080229E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.4268356486450029E-006           OLP:   -5.4268356486464987E-006
 Error #15 in genps_fks.f  -1.1376105248928070E-006           4
ABS integral  = 0.9036E-06  +/-  0.1805E-08  (   0.200 %)
Integral      = 0.5164E-06  +/-  0.2059E-08  (   0.399 %)
Virtual       = -.1554E-09  +/-  0.1060E-08  ( 682.083 %)
Virtual ratio = -.1936E+00  +/-  0.4127E-03  (   0.213 %)
ABS virtual   = 0.4836E-06  +/-  0.8398E-09  (   0.174 %)
Born          = 0.1902E-05  +/-  0.2714E-08  (   0.143 %)
V  2          = -.1554E-09  +/-  0.1060E-08  ( 682.083 %)
B  2          = 0.1902E-05  +/-  0.2714E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9036E-06  +/-  0.1805E-08  (   0.200 %)
accumulated results Integral      = 0.5164E-06  +/-  0.2059E-08  (   0.399 %)
accumulated results Virtual       = -.1554E-09  +/-  0.1060E-08  ( 682.083 %)
accumulated results Virtual ratio = -.1936E+00  +/-  0.4127E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4836E-06  +/-  0.8398E-09  (   0.174 %)
accumulated results Born          = 0.1902E-05  +/-  0.2714E-08  (   0.143 %)
accumulated results V  2          = -.1554E-09  +/-  0.1060E-08  ( 682.083 %)
accumulated results B  2          = 0.1902E-05  +/-  0.2714E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   203977    24013  0.3284E-06  0.1872E-06  0.1000E+01
channel    2 :     1 T   208589    24468  0.3384E-06  0.2014E-06  0.9302E+00
channel    3 :     2 T    73136     8219  0.1170E-06  0.6108E-07  0.9748E+00
channel    4 :     2 T    74174     8835  0.1198E-06  0.6676E-07  0.9732E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0362680262286805E-007  +/-   1.8048687874172369E-009
 Final result:   5.1641973595777240E-007  +/-   2.0590421291650999E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406168
   Stability unknown:                                          0
   Stable PS point:                                       406168
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406168
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406168
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.52169442    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.64473295    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.27755260    
 Time spent in Integrated_CT :    9.56066895    
 Time spent in Virtuals :    583.658325    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.37198734    
 Time spent in N1body_prefactor :   0.812979400    
 Time spent in Adding_alphas_pdf :    10.1306992    
 Time spent in Reweight_scale :    45.6604385    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.4377213    
 Time spent in Applying_cuts :    5.47109604    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.6578674    
 Time spent in Other_tasks :    24.7559204    
 Time spent in Total :    750.961731    
Time in seconds: 845



LOG file for integration channel /P0_uux_emep/all_G1_82, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3948
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          82
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 258874
  with seed                   49
 Ranmar initialization seeds         124       27650
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.439235D+04 0.439235D+04  1.00
 muF1, muF1_reference: 0.439235D+04 0.439235D+04  1.00
 muF2, muF2_reference: 0.439235D+04 0.439235D+04  1.00
 QES,  QES_reference:  0.439235D+04 0.439235D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4723753049208794E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4073844852974607E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4151115695453777E-005           OLP:   -1.4151115695453777E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1728245594531199E-006           OLP:   -5.1728245594531979E-006
  FINITE:
           OLP:   -9.4807183774472947E-004
           BORN:    4.0782934042705409E-003
  MOMENTA (Exyzm): 
           1   2410.9739469079063        0.0000000000000000        0.0000000000000000        2410.9739469079063        0.0000000000000000     
           2   2410.9739469079063       -0.0000000000000000       -0.0000000000000000       -2410.9739469079063        0.0000000000000000     
           3   2410.9739469079063       -1877.9532848485887       -738.26054934835997        1319.4916422133717        0.0000000000000000     
           4   2410.9739469079063        1877.9532848485887        738.26054934835997       -1319.4916422133717        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4151115695453777E-005           OLP:   -1.4151115695453777E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1728245594531199E-006           OLP:   -5.1728245594531979E-006
ABS integral  = 0.9013E-06  +/-  0.1845E-08  (   0.205 %)
Integral      = 0.5137E-06  +/-  0.2094E-08  (   0.408 %)
Virtual       = -.2368E-09  +/-  0.1062E-08  ( 448.449 %)
Virtual ratio = -.1934E+00  +/-  0.4125E-03  (   0.213 %)
ABS virtual   = 0.4840E-06  +/-  0.8424E-09  (   0.174 %)
Born          = 0.1902E-05  +/-  0.2715E-08  (   0.143 %)
V  2          = -.2368E-09  +/-  0.1062E-08  ( 448.449 %)
B  2          = 0.1902E-05  +/-  0.2715E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9013E-06  +/-  0.1845E-08  (   0.205 %)
accumulated results Integral      = 0.5137E-06  +/-  0.2094E-08  (   0.408 %)
accumulated results Virtual       = -.2368E-09  +/-  0.1062E-08  ( 448.449 %)
accumulated results Virtual ratio = -.1934E+00  +/-  0.4125E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4840E-06  +/-  0.8424E-09  (   0.174 %)
accumulated results Born          = 0.1902E-05  +/-  0.2715E-08  (   0.143 %)
accumulated results V  2          = -.2368E-09  +/-  0.1062E-08  ( 448.449 %)
accumulated results B  2          = 0.1902E-05  +/-  0.2715E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   203931    24013  0.3274E-06  0.1863E-06  0.1000E+01
channel    2 :     1 T   208195    24468  0.3358E-06  0.2006E-06  0.9334E+00
channel    3 :     2 T    73431     8219  0.1178E-06  0.6114E-07  0.1000E+01
channel    4 :     2 T    74319     8835  0.1203E-06  0.6567E-07  0.8410E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0132439110023430E-007  +/-   1.8448150580604707E-009
 Final result:   5.1369532968716156E-007  +/-   2.0935700976458401E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406069
   Stability unknown:                                          0
   Stable PS point:                                       406069
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406069
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406069
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.48399758    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.62782097    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.27581310    
 Time spent in Integrated_CT :    9.56774902    
 Time spent in Virtuals :    582.366577    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.38393211    
 Time spent in N1body_prefactor :   0.798161030    
 Time spent in Adding_alphas_pdf :    10.1855631    
 Time spent in Reweight_scale :    45.3897781    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.5400057    
 Time spent in Applying_cuts :    5.43928814    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.7996216    
 Time spent in Other_tasks :    24.7272949    
 Time spent in Total :    749.585510    
Time in seconds: 844



LOG file for integration channel /P0_uux_emep/all_G1_83, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3949
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          83
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 262031
  with seed                   49
 Ranmar initialization seeds         124         726
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.438135D+04 0.438135D+04  1.00
 muF1, muF1_reference: 0.438135D+04 0.438135D+04  1.00
 muF2, muF2_reference: 0.438135D+04 0.438135D+04  1.00
 QES,  QES_reference:  0.438135D+04 0.438135D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4741370540874819E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4132113898959920E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4132759377581530E-005           OLP:   -1.4132759377581539E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2050963540113634E-006           OLP:   -5.2050963540106070E-006
  FINITE:
           OLP:   -9.4166624181903210E-004
           BORN:    4.0730031888757835E-003
  MOMENTA (Exyzm): 
           1   2390.7193147047933        0.0000000000000000        0.0000000000000000        2390.7193147047933        0.0000000000000000     
           2   2390.7193147047933       -0.0000000000000000       -0.0000000000000000       -2390.7193147047933        0.0000000000000000     
           3   2390.7193147047933       -1223.0765480947050       -1585.6359097743241        1305.9025081672246        0.0000000000000000     
           4   2390.7193147047933        1223.0765480947050        1585.6359097743241       -1305.9025081672246        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4132759377581530E-005           OLP:   -1.4132759377581539E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2050963540113600E-006           OLP:   -5.2050963540106070E-006
ABS integral  = 0.9069E-06  +/-  0.5116E-08  (   0.564 %)
Integral      = 0.5050E-06  +/-  0.5214E-08  (   1.032 %)
Virtual       = -.1739E-08  +/-  0.1061E-08  (  61.034 %)
Virtual ratio = -.1941E+00  +/-  0.4126E-03  (   0.213 %)
ABS virtual   = 0.4829E-06  +/-  0.8427E-09  (   0.175 %)
Born          = 0.1898E-05  +/-  0.2706E-08  (   0.143 %)
V  2          = -.1739E-08  +/-  0.1061E-08  (  61.034 %)
B  2          = 0.1898E-05  +/-  0.2706E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9069E-06  +/-  0.5116E-08  (   0.564 %)
accumulated results Integral      = 0.5050E-06  +/-  0.5214E-08  (   1.032 %)
accumulated results Virtual       = -.1739E-08  +/-  0.1061E-08  (  61.034 %)
accumulated results Virtual ratio = -.1941E+00  +/-  0.4126E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4829E-06  +/-  0.8427E-09  (   0.175 %)
accumulated results Born          = 0.1898E-05  +/-  0.2706E-08  (   0.143 %)
accumulated results V  2          = -.1739E-08  +/-  0.1061E-08  (  61.034 %)
accumulated results B  2          = 0.1898E-05  +/-  0.2706E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                     2                       3                         4
channel    1 :     1 T   204233    24013  0.3309E-06  0.1855E-06  0.8979E+00
channel    2 :     1 T   207855    24468  0.3394E-06  0.1917E-06  0.2460E+00
channel    3 :     2 T    73239     8219  0.1160E-06  0.6188E-07  0.1000E+01
channel    4 :     2 T    74547     8835  0.1205E-06  0.6586E-07  0.8348E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0689245240649068E-007  +/-   5.1155420306545067E-009
 Final result:   5.0495666509694659E-007  +/-   5.2136691518619380E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405736
   Stability unknown:                                          0
   Stable PS point:                                       405736
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405736
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405736
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.41565537    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.17542505    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.89906025    
 Time spent in Integrated_CT :    8.90100098    
 Time spent in Virtuals :    540.522156    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.79164028    
 Time spent in N1body_prefactor :   0.723135650    
 Time spent in Adding_alphas_pdf :    9.40447807    
 Time spent in Reweight_scale :    40.3134232    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.3198328    
 Time spent in Applying_cuts :    5.09041786    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    32.6914024    
 Time spent in Other_tasks :    23.1381836    
 Time spent in Total :    694.385742    
Time in seconds: 752



LOG file for integration channel /P0_uux_emep/all_G1_84, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3919
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          84
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 265188
  with seed                   49
 Ranmar initialization seeds         124        3883
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.428859D+04 0.428859D+04  1.00
 muF1, muF1_reference: 0.428859D+04 0.428859D+04  1.00
 muF2, muF2_reference: 0.428859D+04 0.428859D+04  1.00
 QES,  QES_reference:  0.428859D+04 0.428859D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4892151046137431E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4157023759611362E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4059636725744663E-005           OLP:   -1.4059636725744670E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3318407107639890E-006           OLP:   -5.3318407107635045E-006
  FINITE:
           OLP:   -9.3284245201512858E-004
           BORN:    4.0519295410371987E-003
  MOMENTA (Exyzm): 
           1   2382.1225834509105        0.0000000000000000        0.0000000000000000        2382.1225834509105        0.0000000000000000     
           2   2382.1225834509105       -0.0000000000000000       -0.0000000000000000       -2382.1225834509105        0.0000000000000000     
           3   2382.1225834509105       -1200.6177666823805       -1601.7561355440155        1291.2793126045794        0.0000000000000000     
           4   2382.1225834509105        1200.6177666823805        1601.7561355440155       -1291.2793126045794        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4059636725744663E-005           OLP:   -1.4059636725744670E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3318407107639890E-006           OLP:   -5.3318407107635045E-006
 Error #15 in genps_fks.f  -1.0281801223754883E-006           4
ABS integral  = 0.9020E-06  +/-  0.1869E-08  (   0.207 %)
Integral      = 0.5125E-06  +/-  0.2116E-08  (   0.413 %)
Virtual       = -.1786E-08  +/-  0.1061E-08  (  59.377 %)
Virtual ratio = -.1943E+00  +/-  0.4127E-03  (   0.212 %)
ABS virtual   = 0.4828E-06  +/-  0.8418E-09  (   0.174 %)
Born          = 0.1898E-05  +/-  0.2709E-08  (   0.143 %)
V  2          = -.1786E-08  +/-  0.1061E-08  (  59.377 %)
B  2          = 0.1898E-05  +/-  0.2709E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9020E-06  +/-  0.1869E-08  (   0.207 %)
accumulated results Integral      = 0.5125E-06  +/-  0.2116E-08  (   0.413 %)
accumulated results Virtual       = -.1786E-08  +/-  0.1061E-08  (  59.377 %)
accumulated results Virtual ratio = -.1943E+00  +/-  0.4127E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4828E-06  +/-  0.8418E-09  (   0.174 %)
accumulated results Born          = 0.1898E-05  +/-  0.2709E-08  (   0.143 %)
accumulated results V  2          = -.1786E-08  +/-  0.1061E-08  (  59.377 %)
accumulated results B  2          = 0.1898E-05  +/-  0.2709E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                     2                       3                         4
channel    1 :     1 T   203827    24013  0.3283E-06  0.1861E-06  0.9963E+00
channel    2 :     1 T   208001    24468  0.3367E-06  0.1977E-06  0.8849E+00
channel    3 :     2 T    73307     8219  0.1178E-06  0.6116E-07  0.9893E+00
channel    4 :     2 T    74735     8835  0.1192E-06  0.6760E-07  0.9709E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0197805240212477E-007  +/-   1.8691516837742439E-009
 Final result:   5.1251400414644897E-007  +/-   2.1160557308670375E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405673
   Stability unknown:                                          0
   Stable PS point:                                       405673
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405673
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405673
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.40822220    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.25566864    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.89474583    
 Time spent in Integrated_CT :    8.91668701    
 Time spent in Virtuals :    539.759888    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.81270027    
 Time spent in N1body_prefactor :   0.718003869    
 Time spent in Adding_alphas_pdf :    9.43893719    
 Time spent in Reweight_scale :    40.5709000    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.0069656    
 Time spent in Applying_cuts :    5.12180281    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    32.6572571    
 Time spent in Other_tasks :    22.9487305    
 Time spent in Total :    693.510620    
Time in seconds: 753



LOG file for integration channel /P0_uux_emep/all_G1_85, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3937
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          85
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 268345
  with seed                   49
 Ranmar initialization seeds         124        7040
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.403387D+04 0.403387D+04  1.00
 muF1, muF1_reference: 0.403387D+04 0.403387D+04  1.00
 muF2, muF2_reference: 0.403387D+04 0.403387D+04  1.00
 QES,  QES_reference:  0.403387D+04 0.403387D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5326849801474804E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4046820535104654E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4175749705848042E-005           OLP:   -1.4175749705848030E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1294232564354453E-006           OLP:   -5.1294232564465736E-006
  FINITE:
           OLP:   -9.5257405441299015E-004
           BORN:    4.0853928248585540E-003
  MOMENTA (Exyzm): 
           1   2420.4372872298159        0.0000000000000000        0.0000000000000000        2420.4372872298159        0.0000000000000000     
           2   2420.4372872298159       -0.0000000000000000       -0.0000000000000000       -2420.4372872298159        0.0000000000000000     
           3   2420.4372872298159       -1436.2635725374651       -1425.4523507593840        1328.0622000979079        0.0000000000000000     
           4   2420.4372872298159        1436.2635725374651        1425.4523507593840       -1328.0622000979079        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4175749705848042E-005           OLP:   -1.4175749705848030E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1294232564354453E-006           OLP:   -5.1294232564465736E-006
ABS integral  = 0.9037E-06  +/-  0.2100E-08  (   0.232 %)
Integral      = 0.5129E-06  +/-  0.2323E-08  (   0.453 %)
Virtual       = -.8166E-09  +/-  0.1062E-08  ( 130.017 %)
Virtual ratio = -.1941E+00  +/-  0.4128E-03  (   0.213 %)
ABS virtual   = 0.4835E-06  +/-  0.8423E-09  (   0.174 %)
Born          = 0.1900E-05  +/-  0.2716E-08  (   0.143 %)
V  2          = -.8166E-09  +/-  0.1062E-08  ( 130.017 %)
B  2          = 0.1900E-05  +/-  0.2716E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9037E-06  +/-  0.2100E-08  (   0.232 %)
accumulated results Integral      = 0.5129E-06  +/-  0.2323E-08  (   0.453 %)
accumulated results Virtual       = -.8166E-09  +/-  0.1062E-08  ( 130.017 %)
accumulated results Virtual ratio = -.1941E+00  +/-  0.4128E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4835E-06  +/-  0.8423E-09  (   0.174 %)
accumulated results Born          = 0.1900E-05  +/-  0.2716E-08  (   0.143 %)
accumulated results V  2          = -.8166E-09  +/-  0.1062E-08  ( 130.017 %)
accumulated results B  2          = 0.1900E-05  +/-  0.2716E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   203973    24013  0.3272E-06  0.1853E-06  0.1000E+01
channel    2 :     1 T   208452    24468  0.3392E-06  0.1985E-06  0.7202E+00
channel    3 :     2 T    73288     8219  0.1174E-06  0.6193E-07  0.9889E+00
channel    4 :     2 T    74163     8835  0.1199E-06  0.6714E-07  0.9380E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0365097373043320E-007  +/-   2.0997214803367219E-009
 Final result:   5.1288665059909683E-007  +/-   2.3232535229115291E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405285
   Stability unknown:                                          0
   Stable PS point:                                       405285
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405285
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405285
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.40063214    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.14949608    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.85647774    
 Time spent in Integrated_CT :    8.89788818    
 Time spent in Virtuals :    534.471375    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.76214886    
 Time spent in N1body_prefactor :   0.727423668    
 Time spent in Adding_alphas_pdf :    9.40015125    
 Time spent in Reweight_scale :    41.1196861    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.5246353    
 Time spent in Applying_cuts :    5.12368202    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    33.2909470    
 Time spent in Other_tasks :    23.2171021    
 Time spent in Total :    688.941650    
Time in seconds: 752



LOG file for integration channel /P0_uux_emep/all_G1_86, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3927
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          86
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 271502
  with seed                   49
 Ranmar initialization seeds         124       10197
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.444918D+04 0.444918D+04  1.00
 muF1, muF1_reference: 0.444918D+04 0.444918D+04  1.00
 muF2, muF2_reference: 0.444918D+04 0.444918D+04  1.00
 QES,  QES_reference:  0.444918D+04 0.444918D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4633504677567755E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4145424429921850E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4034514448703606E-005           OLP:   -1.4034514448703580E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3748514289477142E-006           OLP:   -5.3748514289477634E-006
  FINITE:
           OLP:   -9.3141935965922445E-004
           BORN:    4.0446894040075988E-003
  MOMENTA (Exyzm): 
           1   2386.1210658866626        0.0000000000000000        0.0000000000000000        2386.1210658866626        0.0000000000000000     
           2   2386.1210658866626       -0.0000000000000000       -0.0000000000000000       -2386.1210658866626        0.0000000000000000     
           3   2386.1210658866626       -1887.4442319326931       -683.34472449182601        1290.0263562893977        0.0000000000000000     
           4   2386.1210658866626        1887.4442319326931        683.34472449182601       -1290.0263562893977        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4034514448703606E-005           OLP:   -1.4034514448703580E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3748514289477176E-006           OLP:   -5.3748514289477634E-006
ABS integral  = 0.9058E-06  +/-  0.1915E-08  (   0.211 %)
Integral      = 0.5139E-06  +/-  0.2159E-08  (   0.420 %)
Virtual       = -.1625E-11  +/-  0.1059E-08  ( ******* %)
Virtual ratio = -.1938E+00  +/-  0.4125E-03  (   0.213 %)
ABS virtual   = 0.4838E-06  +/-  0.8383E-09  (   0.173 %)
Born          = 0.1900E-05  +/-  0.2693E-08  (   0.142 %)
V  2          = -.1625E-11  +/-  0.1059E-08  ( ******* %)
B  2          = 0.1900E-05  +/-  0.2693E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9058E-06  +/-  0.1915E-08  (   0.211 %)
accumulated results Integral      = 0.5139E-06  +/-  0.2159E-08  (   0.420 %)
accumulated results Virtual       = -.1625E-11  +/-  0.1059E-08  ( ******* %)
accumulated results Virtual ratio = -.1938E+00  +/-  0.4125E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4838E-06  +/-  0.8383E-09  (   0.173 %)
accumulated results Born          = 0.1900E-05  +/-  0.2693E-08  (   0.142 %)
accumulated results V  2          = -.1625E-11  +/-  0.1059E-08  ( ******* %)
accumulated results B  2          = 0.1900E-05  +/-  0.2693E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   203947    24013  0.3300E-06  0.1839E-06  0.9242E+00
channel    2 :     1 T   207985    24468  0.3357E-06  0.1987E-06  0.9118E+00
channel    3 :     2 T    73492     8219  0.1185E-06  0.6301E-07  0.1000E+01
channel    4 :     2 T    74451     8835  0.1216E-06  0.6825E-07  0.9058E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0577964544190591E-007  +/-   1.9154476504980853E-009
 Final result:   5.1385360731620589E-007  +/-   2.1593338397223378E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406029
   Stability unknown:                                          0
   Stable PS point:                                       406029
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406029
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406029
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.40299404    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.12318754    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.92128086    
 Time spent in Integrated_CT :    8.87585449    
 Time spent in Virtuals :    535.859924    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.80293751    
 Time spent in N1body_prefactor :   0.712977648    
 Time spent in Adding_alphas_pdf :    9.33109283    
 Time spent in Reweight_scale :    41.1139374    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.3862581    
 Time spent in Applying_cuts :    5.07012796    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    32.9326820    
 Time spent in Other_tasks :    22.9949341    
 Time spent in Total :    689.528137    
Time in seconds: 752



LOG file for integration channel /P0_uux_emep/all_G1_87, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3930
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          87
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 274659
  with seed                   49
 Ranmar initialization seeds         124       13354
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.437939D+04 0.437939D+04  1.00
 muF1, muF1_reference: 0.437939D+04 0.437939D+04  1.00
 muF2, muF2_reference: 0.437939D+04 0.437939D+04  1.00
 QES,  QES_reference:  0.437939D+04 0.437939D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4744528132489663E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4116968458692409E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4155889268806784E-005           OLP:   -1.4155889268806784E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1645455106331016E-006           OLP:   -5.1645455106332177E-006
  FINITE:
           OLP:   -9.4504931712522484E-004
           BORN:    4.0796691284988871E-003
  MOMENTA (Exyzm): 
           1   2395.9643347065935        0.0000000000000000        0.0000000000000000        2395.9643347065935        0.0000000000000000     
           2   2395.9643347065935       -0.0000000000000000       -0.0000000000000000       -2395.9643347065935        0.0000000000000000     
           3   2395.9643347065935       -1978.4876302243615       -324.18492480300313        1311.9207006392076        0.0000000000000000     
           4   2395.9643347065935        1978.4876302243615        324.18492480300313       -1311.9207006392076        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4155889268806784E-005           OLP:   -1.4155889268806784E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1645455106331025E-006           OLP:   -5.1645455106332177E-006
ABS integral  = 0.9019E-06  +/-  0.1848E-08  (   0.205 %)
Integral      = 0.5154E-06  +/-  0.2096E-08  (   0.407 %)
Virtual       = -.7173E-09  +/-  0.1057E-08  ( 147.377 %)
Virtual ratio = -.1941E+00  +/-  0.4122E-03  (   0.212 %)
ABS virtual   = 0.4826E-06  +/-  0.8375E-09  (   0.174 %)
Born          = 0.1899E-05  +/-  0.2705E-08  (   0.142 %)
V  2          = -.7173E-09  +/-  0.1057E-08  ( 147.377 %)
B  2          = 0.1899E-05  +/-  0.2705E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9019E-06  +/-  0.1848E-08  (   0.205 %)
accumulated results Integral      = 0.5154E-06  +/-  0.2096E-08  (   0.407 %)
accumulated results Virtual       = -.7173E-09  +/-  0.1057E-08  ( 147.377 %)
accumulated results Virtual ratio = -.1941E+00  +/-  0.4122E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4826E-06  +/-  0.8375E-09  (   0.174 %)
accumulated results Born          = 0.1899E-05  +/-  0.2705E-08  (   0.142 %)
accumulated results V  2          = -.7173E-09  +/-  0.1057E-08  ( 147.377 %)
accumulated results B  2          = 0.1899E-05  +/-  0.2705E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                     2                       3                         4
channel    1 :     1 T   204595    24013  0.3286E-06  0.1861E-06  0.9954E+00
channel    2 :     1 T   207867    24468  0.3368E-06  0.1986E-06  0.8901E+00
channel    3 :     2 T    73123     8219  0.1167E-06  0.6258E-07  0.1000E+01
channel    4 :     2 T    74282     8835  0.1197E-06  0.6809E-07  0.9731E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0186025537847076E-007  +/-   1.8476294867744416E-009
 Final result:   5.1542776099088474E-007  +/-   2.0957025760550454E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406057
   Stability unknown:                                          0
   Stable PS point:                                       406057
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406057
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406057
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.38653898    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.13678169    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.89563417    
 Time spent in Integrated_CT :    8.79724121    
 Time spent in Virtuals :    536.237061    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.64408493    
 Time spent in N1body_prefactor :   0.730826020    
 Time spent in Adding_alphas_pdf :    9.28071022    
 Time spent in Reweight_scale :    40.9441299    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.4546032    
 Time spent in Applying_cuts :    5.11053085    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    32.7405167    
 Time spent in Other_tasks :    22.9784546    
 Time spent in Total :    689.337158    
Time in seconds: 752



LOG file for integration channel /P0_uux_emep/all_G1_88, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3929
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          88
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 277816
  with seed                   49
 Ranmar initialization seeds         124       16511
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.426906D+04 0.426906D+04  1.00
 muF1, muF1_reference: 0.426906D+04 0.426906D+04  1.00
 muF2, muF2_reference: 0.426906D+04 0.426906D+04  1.00
 QES,  QES_reference:  0.426906D+04 0.426906D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4924384375395142E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4111248484527034E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4191359180322349E-005           OLP:   -1.4191359180322356E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1019853615339452E-006           OLP:   -5.1019853615347312E-006
  FINITE:
           OLP:   -9.4883826148640601E-004
           BORN:    4.0898914112712948E-003
  MOMENTA (Exyzm): 
           1   2397.9487958522832        0.0000000000000000        0.0000000000000000        2397.9487958522832        0.0000000000000000     
           2   2397.9487958522832       -0.0000000000000000       -0.0000000000000000       -2397.9487958522832        0.0000000000000000     
           3   2397.9487958522832       -1196.6511333978960       -1606.7006675580749        1317.8381757011680        0.0000000000000000     
           4   2397.9487958522832        1196.6511333978960        1606.7006675580749       -1317.8381757011680        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4191359180322349E-005           OLP:   -1.4191359180322356E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1019853615339452E-006           OLP:   -5.1019853615347312E-006
ABS integral  = 0.9024E-06  +/-  0.1897E-08  (   0.210 %)
Integral      = 0.5126E-06  +/-  0.2141E-08  (   0.418 %)
Virtual       = -.7419E-09  +/-  0.1063E-08  ( 143.271 %)
Virtual ratio = -.1935E+00  +/-  0.4127E-03  (   0.213 %)
ABS virtual   = 0.4843E-06  +/-  0.8431E-09  (   0.174 %)
Born          = 0.1901E-05  +/-  0.2712E-08  (   0.143 %)
V  2          = -.7419E-09  +/-  0.1063E-08  ( 143.271 %)
B  2          = 0.1901E-05  +/-  0.2712E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9024E-06  +/-  0.1897E-08  (   0.210 %)
accumulated results Integral      = 0.5126E-06  +/-  0.2141E-08  (   0.418 %)
accumulated results Virtual       = -.7419E-09  +/-  0.1063E-08  ( 143.271 %)
accumulated results Virtual ratio = -.1935E+00  +/-  0.4127E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4843E-06  +/-  0.8431E-09  (   0.174 %)
accumulated results Born          = 0.1901E-05  +/-  0.2712E-08  (   0.143 %)
accumulated results V  2          = -.7419E-09  +/-  0.1063E-08  ( 143.271 %)
accumulated results B  2          = 0.1901E-05  +/-  0.2712E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   203651    24013  0.3289E-06  0.1848E-06  0.9772E+00
channel    2 :     1 T   208409    24468  0.3355E-06  0.1958E-06  0.8969E+00
channel    3 :     2 T    73129     8219  0.1173E-06  0.6362E-07  0.1000E+01
channel    4 :     2 T    74679     8835  0.1208E-06  0.6837E-07  0.8963E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0244993065054967E-007  +/-   1.8968472239656951E-009
 Final result:   5.1258223057771585E-007  +/-   2.1408851303976642E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405986
   Stability unknown:                                          0
   Stable PS point:                                       405986
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405986
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405986
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.39255333    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.19907618    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.95058060    
 Time spent in Integrated_CT :    8.88970947    
 Time spent in Virtuals :    532.716125    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.71118593    
 Time spent in N1body_prefactor :   0.700049162    
 Time spent in Adding_alphas_pdf :    9.35084724    
 Time spent in Reweight_scale :    41.4006691    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.3350029    
 Time spent in Applying_cuts :    5.16454315    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    32.8404846    
 Time spent in Other_tasks :    22.9111938    
 Time spent in Total :    686.562073    
Time in seconds: 752



LOG file for integration channel /P0_uux_emep/all_G1_89, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3958
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          89
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 280973
  with seed                   49
 Ranmar initialization seeds         124       19668
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.437680D+04 0.437680D+04  1.00
 muF1, muF1_reference: 0.437680D+04 0.437680D+04  1.00
 muF2, muF2_reference: 0.437680D+04 0.437680D+04  1.00
 QES,  QES_reference:  0.437680D+04 0.437680D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4748682731988314E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4092574112904555E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4022363348469445E-005           OLP:   -1.4022363348469446E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3954585161061918E-006           OLP:   -5.3954585161062977E-006
  FINITE:
           OLP:   -9.3448522405325477E-004
           BORN:    4.0411875068423085E-003
  MOMENTA (Exyzm): 
           1   2404.4412790833771        0.0000000000000000        0.0000000000000000        2404.4412790833771        0.0000000000000000     
           2   2404.4412790833771       -0.0000000000000000       -0.0000000000000000       -2404.4412790833771        0.0000000000000000     
           3   2404.4412790833771       -1261.9536170662070       -1582.1842227774553        1298.2696245879447        0.0000000000000000     
           4   2404.4412790833771        1261.9536170662070        1582.1842227774553       -1298.2696245879447        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4022363348469445E-005           OLP:   -1.4022363348469446E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3954585161061927E-006           OLP:   -5.3954585161062977E-006
ABS integral  = 0.9012E-06  +/-  0.1863E-08  (   0.207 %)
Integral      = 0.5114E-06  +/-  0.2110E-08  (   0.413 %)
Virtual       = -.1251E-08  +/-  0.1060E-08  (  84.762 %)
Virtual ratio = -.1943E+00  +/-  0.4128E-03  (   0.212 %)
ABS virtual   = 0.4831E-06  +/-  0.8411E-09  (   0.174 %)
Born          = 0.1899E-05  +/-  0.2707E-08  (   0.143 %)
V  2          = -.1251E-08  +/-  0.1060E-08  (  84.762 %)
B  2          = 0.1899E-05  +/-  0.2707E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9012E-06  +/-  0.1863E-08  (   0.207 %)
accumulated results Integral      = 0.5114E-06  +/-  0.2110E-08  (   0.413 %)
accumulated results Virtual       = -.1251E-08  +/-  0.1060E-08  (  84.762 %)
accumulated results Virtual ratio = -.1943E+00  +/-  0.4128E-03  (   0.212 %)
accumulated results ABS virtual   = 0.4831E-06  +/-  0.8411E-09  (   0.174 %)
accumulated results Born          = 0.1899E-05  +/-  0.2707E-08  (   0.143 %)
accumulated results V  2          = -.1251E-08  +/-  0.1060E-08  (  84.762 %)
accumulated results B  2          = 0.1899E-05  +/-  0.2707E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   203950    24013  0.3286E-06  0.1839E-06  0.9745E+00
channel    2 :     1 T   208684    24468  0.3357E-06  0.1990E-06  0.9263E+00
channel    3 :     2 T    72529     8219  0.1165E-06  0.6070E-07  0.9556E+00
channel    4 :     2 T    74709     8835  0.1204E-06  0.6774E-07  0.9435E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0123301894250824E-007  +/-   1.8626408615521023E-009
 Final result:   5.1136121832489158E-007  +/-   2.1102377647044862E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406017
   Stability unknown:                                          0
   Stable PS point:                                       406017
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406017
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406017
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.38045061    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.09750175    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.85089016    
 Time spent in Integrated_CT :    8.84100342    
 Time spent in Virtuals :    540.758179    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.64776468    
 Time spent in N1body_prefactor :   0.729143798    
 Time spent in Adding_alphas_pdf :    9.34513474    
 Time spent in Reweight_scale :    40.9093094    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.6375360    
 Time spent in Applying_cuts :    5.10548973    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    32.5832939    
 Time spent in Other_tasks :    22.9188843    
 Time spent in Total :    693.804565    
Time in seconds: 753



LOG file for integration channel /P0_uux_emep/all_G1_90, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3956
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          90
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 284130
  with seed                   49
 Ranmar initialization seeds         124       22825
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.441175D+04 0.441175D+04  1.00
 muF1, muF1_reference: 0.441175D+04 0.441175D+04  1.00
 muF2, muF2_reference: 0.441175D+04 0.441175D+04  1.00
 QES,  QES_reference:  0.441175D+04 0.441175D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4692785386547098E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4125747631226521E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4144057757274973E-005           OLP:   -1.4144057757274958E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1853173740100533E-006           OLP:   -5.1853173740098839E-006
  FINITE:
           OLP:   -9.4323508907003103E-004
           BORN:    4.0762593354845989E-003
  MOMENTA (Exyzm): 
           1   2392.9223449589254        0.0000000000000000        0.0000000000000000        2392.9223449589254        0.0000000000000000     
           2   2392.9223449589254       -0.0000000000000000       -0.0000000000000000       -2392.9223449589254        0.0000000000000000     
           3   2392.9223449589254       -1892.9140752869594       -656.05143820592195        1308.6443989916356        0.0000000000000000     
           4   2392.9223449589254        1892.9140752869594        656.05143820592195       -1308.6443989916356        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4144057757274973E-005           OLP:   -1.4144057757274958E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1853173740100507E-006           OLP:   -5.1853173740098839E-006
ABS integral  = 0.9003E-06  +/-  0.1835E-08  (   0.204 %)
Integral      = 0.5113E-06  +/-  0.2085E-08  (   0.408 %)
Virtual       = -.4202E-09  +/-  0.1060E-08  ( 252.254 %)
Virtual ratio = -.1939E+00  +/-  0.4123E-03  (   0.213 %)
ABS virtual   = 0.4835E-06  +/-  0.8403E-09  (   0.174 %)
Born          = 0.1900E-05  +/-  0.2705E-08  (   0.142 %)
V  2          = -.4202E-09  +/-  0.1060E-08  ( 252.254 %)
B  2          = 0.1900E-05  +/-  0.2705E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9003E-06  +/-  0.1835E-08  (   0.204 %)
accumulated results Integral      = 0.5113E-06  +/-  0.2085E-08  (   0.408 %)
accumulated results Virtual       = -.4202E-09  +/-  0.1060E-08  ( 252.254 %)
accumulated results Virtual ratio = -.1939E+00  +/-  0.4123E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4835E-06  +/-  0.8403E-09  (   0.174 %)
accumulated results Born          = 0.1900E-05  +/-  0.2705E-08  (   0.142 %)
accumulated results V  2          = -.4202E-09  +/-  0.1060E-08  ( 252.254 %)
accumulated results B  2          = 0.1900E-05  +/-  0.2705E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   203796    24013  0.3273E-06  0.1851E-06  0.1000E+01
channel    2 :     1 T   208037    24468  0.3338E-06  0.1984E-06  0.9335E+00
channel    3 :     2 T    73209     8219  0.1173E-06  0.6046E-07  0.9995E+00
channel    4 :     2 T    74830     8835  0.1219E-06  0.6729E-07  0.8832E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0033535882662191E-007  +/-   1.8351868594337190E-009
 Final result:   5.1131077975695217E-007  +/-   2.0853745167473799E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405938
   Stability unknown:                                          0
   Stable PS point:                                       405938
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405938
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405938
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.36321950    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.14659739    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.86676836    
 Time spent in Integrated_CT :    8.84722900    
 Time spent in Virtuals :    536.094482    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.67720938    
 Time spent in N1body_prefactor :   0.723494053    
 Time spent in Adding_alphas_pdf :    9.38365364    
 Time spent in Reweight_scale :    41.0085793    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.2814426    
 Time spent in Applying_cuts :    5.09100294    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    32.7658806    
 Time spent in Other_tasks :    22.9089966    
 Time spent in Total :    689.158569    
Time in seconds: 752



LOG file for integration channel /P0_uux_emep/all_G1_91, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3950
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          91
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 287287
  with seed                   49
 Ranmar initialization seeds         124       25982
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.429594D+04 0.429594D+04  1.00
 muF1, muF1_reference: 0.429594D+04 0.429594D+04  1.00
 muF2, muF2_reference: 0.429594D+04 0.429594D+04  1.00
 QES,  QES_reference:  0.429594D+04 0.429594D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4880064956688711E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4107786091039282E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4148874959348152E-005           OLP:   -1.4148874959348159E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1768333116176458E-006           OLP:   -5.1768333116174323E-006
  FINITE:
           OLP:   -9.4512945840741496E-004
           BORN:    4.0776476333308533E-003
  MOMENTA (Exyzm): 
           1   2399.1509765592182        0.0000000000000000        0.0000000000000000        2399.1509765592182        0.0000000000000000     
           2   2399.1509765592182       -0.0000000000000000       -0.0000000000000000       -2399.1509765592182        0.0000000000000000     
           3   2399.1509765592182       -1167.8802379096098       -1633.6377845692155        1312.7104581944297        0.0000000000000000     
           4   2399.1509765592182        1167.8802379096098        1633.6377845692155       -1312.7104581944297        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4148874959348152E-005           OLP:   -1.4148874959348159E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1768333116176458E-006           OLP:   -5.1768333116174323E-006
ABS integral  = 0.9040E-06  +/-  0.1828E-08  (   0.202 %)
Integral      = 0.5160E-06  +/-  0.2079E-08  (   0.403 %)
Virtual       = -.7139E-09  +/-  0.1061E-08  ( 148.679 %)
Virtual ratio = -.1937E+00  +/-  0.4124E-03  (   0.213 %)
ABS virtual   = 0.4847E-06  +/-  0.8409E-09  (   0.173 %)
Born          = 0.1905E-05  +/-  0.2710E-08  (   0.142 %)
V  2          = -.7139E-09  +/-  0.1061E-08  ( 148.679 %)
B  2          = 0.1905E-05  +/-  0.2710E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9040E-06  +/-  0.1828E-08  (   0.202 %)
accumulated results Integral      = 0.5160E-06  +/-  0.2079E-08  (   0.403 %)
accumulated results Virtual       = -.7139E-09  +/-  0.1061E-08  ( 148.679 %)
accumulated results Virtual ratio = -.1937E+00  +/-  0.4124E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4847E-06  +/-  0.8409E-09  (   0.173 %)
accumulated results Born          = 0.1905E-05  +/-  0.2710E-08  (   0.142 %)
accumulated results V  2          = -.7139E-09  +/-  0.1061E-08  ( 148.679 %)
accumulated results B  2          = 0.1905E-05  +/-  0.2710E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   203361    24013  0.3272E-06  0.1844E-06  0.9738E+00
channel    2 :     1 T   208498    24468  0.3373E-06  0.2008E-06  0.9410E+00
channel    3 :     2 T    73477     8219  0.1186E-06  0.6285E-07  0.1000E+01
channel    4 :     2 T    74541     8835  0.1209E-06  0.6803E-07  0.9577E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0401840472209093E-007  +/-   1.8275518884063643E-009
 Final result:   5.1604304016647678E-007  +/-   2.0794249391478484E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406740
   Stability unknown:                                          0
   Stable PS point:                                       406740
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406740
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406740
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.36819816    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.20223713    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.90590096    
 Time spent in Integrated_CT :    8.90710449    
 Time spent in Virtuals :    535.439697    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.71382952    
 Time spent in N1body_prefactor :   0.729209363    
 Time spent in Adding_alphas_pdf :    9.43204403    
 Time spent in Reweight_scale :    41.3618469    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.5092716    
 Time spent in Applying_cuts :    5.16804981    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    32.7909775    
 Time spent in Other_tasks :    22.9784546    
 Time spent in Total :    689.506775    
Time in seconds: 752



LOG file for integration channel /P0_uux_emep/all_G1_92, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3921
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          92
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 290444
  with seed                   49
 Ranmar initialization seeds         124       29139
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.415876D+04 0.415876D+04  1.00
 muF1, muF1_reference: 0.415876D+04 0.415876D+04  1.00
 muF2, muF2_reference: 0.415876D+04 0.415876D+04  1.00
 QES,  QES_reference:  0.415876D+04 0.415876D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5109774799744566E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4050948976534095E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4191527291552235E-005           OLP:   -1.4191527291552225E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1015471692907564E-006           OLP:   -5.1015471692908699E-006
  FINITE:
           OLP:   -9.5372767207430541E-004
           BORN:    4.0899398602370716E-003
  MOMENTA (Exyzm): 
           1   2418.9887281997844        0.0000000000000000        0.0000000000000000        2418.9887281997844        0.0000000000000000     
           2   2418.9887281997844       -0.0000000000000000       -0.0000000000000000       -2418.9887281997844        0.0000000000000000     
           3   2418.9887281997844       -1988.1905702083113       -362.23208761085306        1329.4332019313511        0.0000000000000000     
           4   2418.9887281997844        1988.1905702083113        362.23208761085306       -1329.4332019313511        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4191527291552235E-005           OLP:   -1.4191527291552225E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.1015471692907556E-006           OLP:   -5.1015471692908699E-006
ABS integral  = 0.9036E-06  +/-  0.2104E-08  (   0.233 %)
Integral      = 0.5152E-06  +/-  0.2326E-08  (   0.451 %)
Virtual       = 0.4648E-09  +/-  0.1058E-08  ( 227.623 %)
Virtual ratio = -.1941E+00  +/-  0.4124E-03  (   0.213 %)
ABS virtual   = 0.4832E-06  +/-  0.8381E-09  (   0.173 %)
Born          = 0.1900E-05  +/-  0.2706E-08  (   0.142 %)
V  2          = 0.4648E-09  +/-  0.1058E-08  ( 227.623 %)
B  2          = 0.1900E-05  +/-  0.2706E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9036E-06  +/-  0.2104E-08  (   0.233 %)
accumulated results Integral      = 0.5152E-06  +/-  0.2326E-08  (   0.451 %)
accumulated results Virtual       = 0.4648E-09  +/-  0.1058E-08  ( 227.623 %)
accumulated results Virtual ratio = -.1941E+00  +/-  0.4124E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4832E-06  +/-  0.8381E-09  (   0.173 %)
accumulated results Born          = 0.1900E-05  +/-  0.2706E-08  (   0.142 %)
accumulated results V  2          = 0.4648E-09  +/-  0.1058E-08  ( 227.623 %)
accumulated results B  2          = 0.1900E-05  +/-  0.2706E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   203844    24013  0.3275E-06  0.1844E-06  0.7731E+00
channel    2 :     1 T   208341    24468  0.3380E-06  0.1998E-06  0.8831E+00
channel    3 :     2 T    73538     8219  0.1182E-06  0.6352E-07  0.1000E+01
channel    4 :     2 T    74146     8835  0.1200E-06  0.6752E-07  0.9530E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0356621323012854E-007  +/-   2.1040513706685018E-009
 Final result:   5.1523780923182963E-007  +/-   2.3261809136130240E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405908
   Stability unknown:                                          0
   Stable PS point:                                       405908
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405908
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405908
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.40483248    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.22169542    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.88855886    
 Time spent in Integrated_CT :    8.86132812    
 Time spent in Virtuals :    535.452698    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.76252651    
 Time spent in N1body_prefactor :   0.732422829    
 Time spent in Adding_alphas_pdf :    9.31982327    
 Time spent in Reweight_scale :    41.2979126    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.6453743    
 Time spent in Applying_cuts :    5.15844202    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    32.9773483    
 Time spent in Other_tasks :    22.9904785    
 Time spent in Total :    689.713440    
Time in seconds: 753



LOG file for integration channel /P0_uux_emep/all_G1_93, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3922
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          93
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 293601
  with seed                   49
 Ranmar initialization seeds         124        2215
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.353097D+04 0.353097D+04  1.00
 muF1, muF1_reference: 0.353097D+04 0.353097D+04  1.00
 muF2, muF2_reference: 0.353097D+04 0.353097D+04  1.00
 QES,  QES_reference:  0.353097D+04 0.353097D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.6289676883570273E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4090894461997278E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4016068906693191E-005           OLP:   -1.4016068906693208E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.4061692193829744E-006           OLP:   -5.4061692193842178E-006
  FINITE:
           OLP:   -9.3402925046536618E-004
           BORN:    4.0393734745827947E-003
  MOMENTA (Exyzm): 
           1   2405.0262687815202        0.0000000000000000        0.0000000000000000        2405.0262687815202        0.0000000000000000     
           2   2405.0262687815202       -0.0000000000000000       -0.0000000000000000       -2405.0262687815202        0.0000000000000000     
           3   2405.0262687815202       -1304.9687895214599       -1548.2665537011112        1297.7204978709940        0.0000000000000000     
           4   2405.0262687815202        1304.9687895214599        1548.2665537011112       -1297.7204978709940        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4016068906693191E-005           OLP:   -1.4016068906693208E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.4061692193829744E-006           OLP:   -5.4061692193842178E-006
ABS integral  = 0.9037E-06  +/-  0.1885E-08  (   0.209 %)
Integral      = 0.5145E-06  +/-  0.2131E-08  (   0.414 %)
Virtual       = 0.9770E-09  +/-  0.1061E-08  ( 108.627 %)
Virtual ratio = -.1932E+00  +/-  0.4129E-03  (   0.214 %)
ABS virtual   = 0.4838E-06  +/-  0.8416E-09  (   0.174 %)
Born          = 0.1900E-05  +/-  0.2708E-08  (   0.143 %)
V  2          = 0.9770E-09  +/-  0.1061E-08  ( 108.627 %)
B  2          = 0.1900E-05  +/-  0.2708E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9037E-06  +/-  0.1885E-08  (   0.209 %)
accumulated results Integral      = 0.5145E-06  +/-  0.2131E-08  (   0.414 %)
accumulated results Virtual       = 0.9770E-09  +/-  0.1061E-08  ( 108.627 %)
accumulated results Virtual ratio = -.1932E+00  +/-  0.4129E-03  (   0.214 %)
accumulated results ABS virtual   = 0.4838E-06  +/-  0.8416E-09  (   0.174 %)
accumulated results Born          = 0.1900E-05  +/-  0.2708E-08  (   0.143 %)
accumulated results V  2          = 0.9770E-09  +/-  0.1061E-08  ( 108.627 %)
accumulated results B  2          = 0.1900E-05  +/-  0.2708E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                    2                       3                         4
channel    1 :     1 T   204058    24013  0.3285E-06  0.1868E-06  0.9914E+00
channel    2 :     1 T   208435    24468  0.3375E-06  0.1997E-06  0.9275E+00
channel    3 :     2 T    72935     8219  0.1170E-06  0.6161E-07  0.9807E+00
channel    4 :     2 T    74445     8835  0.1208E-06  0.6641E-07  0.8397E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0373786397635184E-007  +/-   1.8851642718876344E-009
 Final result:   5.1454543685288052E-007  +/-   2.1306706451724663E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405840
   Stability unknown:                                          0
   Stable PS point:                                       405840
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405840
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405840
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.39806759    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.15401840    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.89421797    
 Time spent in Integrated_CT :    8.89434814    
 Time spent in Virtuals :    535.080933    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.63084507    
 Time spent in N1body_prefactor :   0.715602994    
 Time spent in Adding_alphas_pdf :    9.31919670    
 Time spent in Reweight_scale :    40.8233986    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.5014801    
 Time spent in Applying_cuts :    5.04003334    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    32.6917953    
 Time spent in Other_tasks :    22.6937866    
 Time spent in Total :    687.837708    
Time in seconds: 752



LOG file for integration channel /P0_uux_emep/all_G1_94, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        3917
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          94
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 296758
  with seed                   49
 Ranmar initialization seeds         124        5372
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.409662D+04 0.409662D+04  1.00
 muF1, muF1_reference: 0.409662D+04 0.409662D+04  1.00
 muF2, muF2_reference: 0.409662D+04 0.409662D+04  1.00
 QES,  QES_reference:  0.409662D+04 0.409662D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5216802401041075E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4059101904480298E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4021776434566931E-005           OLP:   -1.4021776434566912E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3963828861159170E-006           OLP:   -5.3963828861155731E-006
  FINITE:
           OLP:   -9.3709804981822065E-004
           BORN:    4.0410183606669108E-003
  MOMENTA (Exyzm): 
           1   2416.1311248034508        0.0000000000000000        0.0000000000000000        2416.1311248034508        0.0000000000000000     
           2   2416.1311248034508       -0.0000000000000000       -0.0000000000000000       -2416.1311248034508        0.0000000000000000     
           3   2416.1311248034508       -1750.6467177725649       -1034.9836683010842        1304.5054573079278        0.0000000000000000     
           4   2416.1311248034508        1750.6467177725649        1034.9836683010842       -1304.5054573079278        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4021776434566931E-005           OLP:   -1.4021776434566912E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3963828861159170E-006           OLP:   -5.3963828861155731E-006
ABS integral  = 0.9034E-06  +/-  0.1845E-08  (   0.204 %)
Integral      = 0.5147E-06  +/-  0.2095E-08  (   0.407 %)
Virtual       = 0.2607E-09  +/-  0.1061E-08  ( 407.095 %)
Virtual ratio = -.1942E+00  +/-  0.4128E-03  (   0.213 %)
ABS virtual   = 0.4841E-06  +/-  0.8415E-09  (   0.174 %)
Born          = 0.1902E-05  +/-  0.2711E-08  (   0.143 %)
V  2          = 0.2607E-09  +/-  0.1061E-08  ( 407.095 %)
B  2          = 0.1902E-05  +/-  0.2711E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9034E-06  +/-  0.1845E-08  (   0.204 %)
accumulated results Integral      = 0.5147E-06  +/-  0.2095E-08  (   0.407 %)
accumulated results Virtual       = 0.2607E-09  +/-  0.1061E-08  ( 407.095 %)
accumulated results Virtual ratio = -.1942E+00  +/-  0.4128E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4841E-06  +/-  0.8415E-09  (   0.174 %)
accumulated results Born          = 0.1902E-05  +/-  0.2711E-08  (   0.143 %)
accumulated results V  2          = 0.2607E-09  +/-  0.1061E-08  ( 407.095 %)
accumulated results B  2          = 0.1902E-05  +/-  0.2711E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                     2                       3                         4
channel    1 :     1 T   204420    24013  0.3295E-06  0.1845E-06  0.9675E+00
channel    2 :     1 T   207393    24468  0.3364E-06  0.1995E-06  0.9266E+00
channel    3 :     2 T    73369     8219  0.1170E-06  0.6222E-07  0.1000E+01
channel    4 :     2 T    74693     8835  0.1205E-06  0.6843E-07  0.9635E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0343415045650354E-007  +/-   1.8451136739548486E-009
 Final result:   5.1465526529717215E-007  +/-   2.0950358719893183E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405833
   Stability unknown:                                          0
   Stable PS point:                                       405833
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405833
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405833
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.38723660    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.13757324    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.86648369    
 Time spent in Integrated_CT :    8.88818359    
 Time spent in Virtuals :    534.130432    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.68190908    
 Time spent in N1body_prefactor :   0.711331129    
 Time spent in Adding_alphas_pdf :    9.37818432    
 Time spent in Reweight_scale :    40.6525345    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.5117912    
 Time spent in Applying_cuts :    5.10292244    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    32.8138046    
 Time spent in Other_tasks :    22.8392944    
 Time spent in Total :    687.101562    
Time in seconds: 753



LOG file for integration channel /P0_uux_emep/all_G1_95, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       29261
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          95
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 299915
  with seed                   49
 Ranmar initialization seeds         124        8529
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.417113D+04 0.417113D+04  1.00
 muF1, muF1_reference: 0.417113D+04 0.417113D+04  1.00
 muF2, muF2_reference: 0.417113D+04 0.417113D+04  1.00
 QES,  QES_reference:  0.417113D+04 0.417113D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5088691991197790E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4068806739585574E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4116197109702153E-005           OLP:   -1.4116197109702129E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2338305052964571E-006           OLP:   -5.2338305052960945E-006
  FINITE:
           OLP:   -9.4519334698387652E-004
           BORN:    4.0682300113182059E-003
  MOMENTA (Exyzm): 
           1   2412.7348312552913        0.0000000000000000        0.0000000000000000        2412.7348312552913        0.0000000000000000     
           2   2412.7348312552913       -0.0000000000000000       -0.0000000000000000       -2412.7348312552913        0.0000000000000000     
           3   2412.7348312552913       -1796.7376987296541       -928.46736350418962        1315.6638487181085        0.0000000000000000     
           4   2412.7348312552913        1796.7376987296541        928.46736350418962       -1315.6638487181085        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4116197109702153E-005           OLP:   -1.4116197109702129E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.2338305052964605E-006           OLP:   -5.2338305052960945E-006
ABS integral  = 0.9028E-06  +/-  0.2007E-08  (   0.222 %)
Integral      = 0.5149E-06  +/-  0.2238E-08  (   0.435 %)
Virtual       = -.8047E-09  +/-  0.1058E-08  ( 131.460 %)
Virtual ratio = -.1939E+00  +/-  0.4128E-03  (   0.213 %)
ABS virtual   = 0.4830E-06  +/-  0.8381E-09  (   0.173 %)
Born          = 0.1899E-05  +/-  0.2709E-08  (   0.143 %)
V  2          = -.8047E-09  +/-  0.1058E-08  ( 131.460 %)
B  2          = 0.1899E-05  +/-  0.2709E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9028E-06  +/-  0.2007E-08  (   0.222 %)
accumulated results Integral      = 0.5149E-06  +/-  0.2238E-08  (   0.435 %)
accumulated results Virtual       = -.8047E-09  +/-  0.1058E-08  ( 131.460 %)
accumulated results Virtual ratio = -.1939E+00  +/-  0.4128E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4830E-06  +/-  0.8381E-09  (   0.173 %)
accumulated results Born          = 0.1899E-05  +/-  0.2709E-08  (   0.143 %)
accumulated results V  2          = -.8047E-09  +/-  0.1058E-08  ( 131.460 %)
accumulated results B  2          = 0.1899E-05  +/-  0.2709E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   203667    24013  0.3282E-06  0.1872E-06  0.1000E+01
channel    2 :     1 T   208520    24468  0.3373E-06  0.1979E-06  0.7730E+00
channel    3 :     2 T    73067     8219  0.1167E-06  0.6214E-07  0.9955E+00
channel    4 :     2 T    74619     8835  0.1206E-06  0.6769E-07  0.9631E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0281718056151119E-007  +/-   2.0065184469474514E-009
 Final result:   5.1493384433209143E-007  +/-   2.2379330539899322E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405992
   Stability unknown:                                          0
   Stable PS point:                                       405992
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405992
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405992
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.56464338    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.45930672    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.70022583    
 Time spent in Integrated_CT :    9.98950195    
 Time spent in Virtuals :    604.142334    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.17261219    
 Time spent in N1body_prefactor :   0.837915838    
 Time spent in Adding_alphas_pdf :    10.5269804    
 Time spent in Reweight_scale :    44.4608917    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.0749626    
 Time spent in Applying_cuts :    5.85156822    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    43.4093285    
 Time spent in Other_tasks :    26.5557861    
 Time spent in Total :    785.745972    
Time in seconds: 836



LOG file for integration channel /P0_uux_emep/all_G1_96, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       29265
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          96
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 303072
  with seed                   49
 Ranmar initialization seeds         124       11686
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.439552D+04 0.439552D+04  1.00
 muF1, muF1_reference: 0.439552D+04 0.439552D+04  1.00
 muF2, muF2_reference: 0.439552D+04 0.439552D+04  1.00
 QES,  QES_reference:  0.439552D+04 0.439552D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4718682338484457E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4061799247548674E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4069766513106162E-005           OLP:   -1.4069766513106172E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3141986347250388E-006           OLP:   -5.3141986347253302E-006
  FINITE:
           OLP:   -9.4139085857124368E-004
           BORN:    4.0548489041370515E-003
  MOMENTA (Exyzm): 
           1   2415.1865929611677        0.0000000000000000        0.0000000000000000        2415.1865929611677        0.0000000000000000     
           2   2415.1865929611677       -0.0000000000000000       -0.0000000000000000       -2415.1865929611677        0.0000000000000000     
           3   2415.1865929611677       -1622.0208798864655       -1218.3882319918446        1310.6123226093584        0.0000000000000000     
           4   2415.1865929611677        1622.0208798864655        1218.3882319918446       -1310.6123226093584        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4069766513106162E-005           OLP:   -1.4069766513106172E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3141986347250388E-006           OLP:   -5.3141986347253302E-006
ABS integral  = 0.9028E-06  +/-  0.2116E-08  (   0.234 %)
Integral      = 0.5166E-06  +/-  0.2336E-08  (   0.452 %)
Virtual       = -.4587E-11  +/-  0.1061E-08  ( ******* %)
Virtual ratio = -.1939E+00  +/-  0.4127E-03  (   0.213 %)
ABS virtual   = 0.4838E-06  +/-  0.8417E-09  (   0.174 %)
Born          = 0.1901E-05  +/-  0.2714E-08  (   0.143 %)
V  2          = -.4587E-11  +/-  0.1061E-08  ( ******* %)
B  2          = 0.1901E-05  +/-  0.2714E-08  (   0.143 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9028E-06  +/-  0.2116E-08  (   0.234 %)
accumulated results Integral      = 0.5166E-06  +/-  0.2336E-08  (   0.452 %)
accumulated results Virtual       = -.4587E-11  +/-  0.1061E-08  ( ******* %)
accumulated results Virtual ratio = -.1939E+00  +/-  0.4127E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4838E-06  +/-  0.8417E-09  (   0.174 %)
accumulated results Born          = 0.1901E-05  +/-  0.2714E-08  (   0.143 %)
accumulated results V  2          = -.4587E-11  +/-  0.1061E-08  ( ******* %)
accumulated results B  2          = 0.1901E-05  +/-  0.2714E-08  (   0.143 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                     2                       3                         4
channel    1 :     1 T   204016    24013  0.3283E-06  0.1856E-06  0.1000E+01
channel    2 :     1 T   208487    24468  0.3379E-06  0.2006E-06  0.7174E+00
channel    3 :     2 T    72801     8219  0.1173E-06  0.6193E-07  0.9582E+00
channel    4 :     2 T    74569     8835  0.1194E-06  0.6845E-07  0.9805E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0283458522284362E-007  +/-   2.1157741605366177E-009
 Final result:   5.1663425999299486E-007  +/-   2.3357336061289055E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405982
   Stability unknown:                                          0
   Stable PS point:                                       405982
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405982
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405982
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.56286120    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.49425650    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.74847126    
 Time spent in Integrated_CT :    9.99774170    
 Time spent in Virtuals :    603.215088    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.02892494    
 Time spent in N1body_prefactor :   0.822102964    
 Time spent in Adding_alphas_pdf :    11.5136080    
 Time spent in Reweight_scale :    47.6707115    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.2772694    
 Time spent in Applying_cuts :    6.03609276    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    43.3674088    
 Time spent in Other_tasks :    26.4047852    
 Time spent in Total :    789.139343    
Time in seconds: 838



LOG file for integration channel /P0_uux_emep/all_G1_97, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       29266
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          97
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 306229
  with seed                   49
 Ranmar initialization seeds         124       14843
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.417850D+04 0.417850D+04  1.00
 muF1, muF1_reference: 0.417850D+04 0.417850D+04  1.00
 muF2, muF2_reference: 0.417850D+04 0.417850D+04  1.00
 QES,  QES_reference:  0.417850D+04 0.417850D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5076167083182238E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4128695050328430E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4051637164896002E-005           OLP:   -1.4051637164896011E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3455065570536450E-006           OLP:   -5.3455065570535129E-006
  FINITE:
           OLP:   -9.3434917014960047E-004
           BORN:    4.0496241004664146E-003
  MOMENTA (Exyzm): 
           1   2391.9020969010649        0.0000000000000000        0.0000000000000000        2391.9020969010649        0.0000000000000000     
           2   2391.9020969010649       -0.0000000000000000       -0.0000000000000000       -2391.9020969010649        0.0000000000000000     
           3   2391.9020969010649       -1212.2498672536594       -1604.1646687583554        1295.4928081662943        0.0000000000000000     
           4   2391.9020969010649        1212.2498672536594        1604.1646687583554       -1295.4928081662943        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4051637164896002E-005           OLP:   -1.4051637164896011E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3455065570536416E-006           OLP:   -5.3455065570535129E-006
ABS integral  = 0.9005E-06  +/-  0.1947E-08  (   0.216 %)
Integral      = 0.5144E-06  +/-  0.2184E-08  (   0.425 %)
Virtual       = -.3112E-09  +/-  0.1054E-08  ( 338.583 %)
Virtual ratio = -.1939E+00  +/-  0.4125E-03  (   0.213 %)
ABS virtual   = 0.4820E-06  +/-  0.8337E-09  (   0.173 %)
Born          = 0.1896E-05  +/-  0.2692E-08  (   0.142 %)
V  2          = -.3112E-09  +/-  0.1054E-08  ( 338.583 %)
B  2          = 0.1896E-05  +/-  0.2692E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9005E-06  +/-  0.1947E-08  (   0.216 %)
accumulated results Integral      = 0.5144E-06  +/-  0.2184E-08  (   0.425 %)
accumulated results Virtual       = -.3112E-09  +/-  0.1054E-08  ( 338.583 %)
accumulated results Virtual ratio = -.1939E+00  +/-  0.4125E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4820E-06  +/-  0.8337E-09  (   0.173 %)
accumulated results Born          = 0.1896E-05  +/-  0.2692E-08  (   0.142 %)
accumulated results V  2          = -.3112E-09  +/-  0.1054E-08  ( 338.583 %)
accumulated results B  2          = 0.1896E-05  +/-  0.2692E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   204011    24013  0.3274E-06  0.1852E-06  0.8799E+00
channel    2 :     1 T   207374    24468  0.3350E-06  0.1983E-06  0.9022E+00
channel    3 :     2 T    73420     8219  0.1176E-06  0.6366E-07  0.9904E+00
channel    4 :     2 T    75065     8835  0.1205E-06  0.6724E-07  0.9523E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0054711050202658E-007  +/-   1.9474929995036498E-009
 Final result:   5.1437210949783572E-007  +/-   2.1837302551242192E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405688
   Stability unknown:                                          0
   Stable PS point:                                       405688
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405688
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405688
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.58468115    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.46599197    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.68429852    
 Time spent in Integrated_CT :    10.0167847    
 Time spent in Virtuals :    604.199341    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.06641769    
 Time spent in N1body_prefactor :   0.813006401    
 Time spent in Adding_alphas_pdf :    10.5508995    
 Time spent in Reweight_scale :    45.3786697    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.8222141    
 Time spent in Applying_cuts :    5.88232899    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    43.3301315    
 Time spent in Other_tasks :    26.6433716    
 Time spent in Total :    786.438110    
Time in seconds: 836



LOG file for integration channel /P0_uux_emep/all_G1_98, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       29262
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          98
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 309386
  with seed                   49
 Ranmar initialization seeds         124       18000
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.441958D+04 0.441958D+04  1.00
 muF1, muF1_reference: 0.441958D+04 0.441958D+04  1.00
 muF2, muF2_reference: 0.441958D+04 0.441958D+04  1.00
 QES,  QES_reference:  0.441958D+04 0.441958D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4680334021464914E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4068312750348614E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4056817845311357E-005           OLP:   -1.4056817845311347E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3364791423492584E-006           OLP:   -5.3364791423497344E-006
  FINITE:
           OLP:   -9.3965298270957270E-004
           BORN:    4.0511171512775503E-003
  MOMENTA (Exyzm): 
           1   2412.9075694133089        0.0000000000000000        0.0000000000000000        2412.9075694133089        0.0000000000000000     
           2   2412.9075694133089       -0.0000000000000000       -0.0000000000000000       -2412.9075694133089        0.0000000000000000     
           3   2412.9075694133089       -1499.0443510183609       -1365.7202058723628        1307.5921732267807        0.0000000000000000     
           4   2412.9075694133089        1499.0443510183609        1365.7202058723628       -1307.5921732267807        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4056817845311357E-005           OLP:   -1.4056817845311347E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.3364791423492592E-006           OLP:   -5.3364791423497344E-006
ABS integral  = 0.9025E-06  +/-  0.2330E-08  (   0.258 %)
Integral      = 0.5107E-06  +/-  0.2534E-08  (   0.496 %)
Virtual       = -.2831E-09  +/-  0.1057E-08  ( 373.353 %)
Virtual ratio = -.1938E+00  +/-  0.4128E-03  (   0.213 %)
ABS virtual   = 0.4826E-06  +/-  0.8373E-09  (   0.173 %)
Born          = 0.1897E-05  +/-  0.2700E-08  (   0.142 %)
V  2          = -.2831E-09  +/-  0.1057E-08  ( 373.353 %)
B  2          = 0.1897E-05  +/-  0.2700E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9025E-06  +/-  0.2330E-08  (   0.258 %)
accumulated results Integral      = 0.5107E-06  +/-  0.2534E-08  (   0.496 %)
accumulated results Virtual       = -.2831E-09  +/-  0.1057E-08  ( 373.353 %)
accumulated results Virtual ratio = -.1938E+00  +/-  0.4128E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4826E-06  +/-  0.8373E-09  (   0.173 %)
accumulated results Born          = 0.1897E-05  +/-  0.2700E-08  (   0.142 %)
accumulated results V  2          = -.2831E-09  +/-  0.1057E-08  ( 373.353 %)
accumulated results B  2          = 0.1897E-05  +/-  0.2700E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                     2                       3                         4
channel    1 :     1 T   203317    24013  0.3284E-06  0.1832E-06  0.9975E+00
channel    2 :     1 T   208201    24468  0.3361E-06  0.1982E-06  0.6289E+00
channel    3 :     2 T    73478     8219  0.1179E-06  0.6221E-07  0.9505E+00
channel    4 :     2 T    74881     8835  0.1201E-06  0.6708E-07  0.8877E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0248801018035815E-007  +/-   2.3302309626535138E-009
 Final result:   5.1074906347708467E-007  +/-   2.5335369557114015E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    405723
   Stability unknown:                                          0
   Stable PS point:                                       405723
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 405723
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       405723
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.55972505    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.45624828    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.72126102    
 Time spent in Integrated_CT :    10.0521240    
 Time spent in Virtuals :    605.209961    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.05452347    
 Time spent in N1body_prefactor :   0.830845952    
 Time spent in Adding_alphas_pdf :    10.6410065    
 Time spent in Reweight_scale :    44.9502869    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.2122974    
 Time spent in Applying_cuts :    5.98005915    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    43.4666748    
 Time spent in Other_tasks :    26.5535889    
 Time spent in Total :    787.688538    
Time in seconds: 836



LOG file for integration channel /P0_uux_emep/all_G1_99, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       29256
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          99
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 312543
  with seed                   49
 Ranmar initialization seeds         124       21157
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.382856D+04 0.382856D+04  1.00
 muF1, muF1_reference: 0.382856D+04 0.382856D+04  1.00
 muF2, muF2_reference: 0.382856D+04 0.382856D+04  1.00
 QES,  QES_reference:  0.382856D+04 0.382856D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5701659103255325E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4080044762357564E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4241984479090368E-005           OLP:   -1.4241984479090383E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0117635037067976E-006           OLP:   -5.0117635037069315E-006
  FINITE:
           OLP:   -9.5612424535350480E-004
           BORN:    4.1044814143847011E-003
  MOMENTA (Exyzm): 
           1   2408.8091063589904        0.0000000000000000        0.0000000000000000        2408.8091063589904        0.0000000000000000     
           2   2408.8091063589904       -0.0000000000000000       -0.0000000000000000       -2408.8091063589904        0.0000000000000000     
           3   2408.8091063589904       -1741.0272414540925       -1000.1795798091412        1330.7239621820752        0.0000000000000000     
           4   2408.8091063589904        1741.0272414540925        1000.1795798091412       -1330.7239621820752        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4241984479090368E-005           OLP:   -1.4241984479090383E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0117635037067985E-006           OLP:   -5.0117635037069315E-006
ABS integral  = 0.9049E-06  +/-  0.2686E-08  (   0.297 %)
Integral      = 0.5077E-06  +/-  0.2867E-08  (   0.565 %)
Virtual       = -.1169E-08  +/-  0.1061E-08  (  90.702 %)
Virtual ratio = -.1937E+00  +/-  0.4124E-03  (   0.213 %)
ABS virtual   = 0.4839E-06  +/-  0.8407E-09  (   0.174 %)
Born          = 0.1902E-05  +/-  0.2709E-08  (   0.142 %)
V  2          = -.1169E-08  +/-  0.1061E-08  (  90.702 %)
B  2          = 0.1902E-05  +/-  0.2709E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9049E-06  +/-  0.2686E-08  (   0.297 %)
accumulated results Integral      = 0.5077E-06  +/-  0.2867E-08  (   0.565 %)
accumulated results Virtual       = -.1169E-08  +/-  0.1061E-08  (  90.702 %)
accumulated results Virtual ratio = -.1937E+00  +/-  0.4124E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4839E-06  +/-  0.8407E-09  (   0.174 %)
accumulated results Born          = 0.1902E-05  +/-  0.2709E-08  (   0.142 %)
accumulated results V  2          = -.1169E-08  +/-  0.1061E-08  (  90.702 %)
accumulated results B  2          = 0.1902E-05  +/-  0.2709E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                     2                       3                         4
channel    1 :     1 T   203800    24013  0.3279E-06  0.1835E-06  0.1000E+01
channel    2 :     1 T   207946    24468  0.3368E-06  0.1961E-06  0.5118E+00
channel    3 :     2 T    73219     8219  0.1191E-06  0.6218E-07  0.9308E+00
channel    4 :     2 T    74907     8835  0.1210E-06  0.6603E-07  0.9618E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0486867460410229E-007  +/-   2.6864864859803218E-009
 Final result:   5.0773822745674430E-007  +/-   2.8669156099364340E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406428
   Stability unknown:                                          0
   Stable PS point:                                       406428
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406428
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406428
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.54432917    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.49036980    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.80331135    
 Time spent in Integrated_CT :    10.1293945    
 Time spent in Virtuals :    609.660339    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.18667221    
 Time spent in N1body_prefactor :   0.856208444    
 Time spent in Adding_alphas_pdf :    10.6700125    
 Time spent in Reweight_scale :    44.3608971    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.2176266    
 Time spent in Applying_cuts :    6.00417900    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    43.6453819    
 Time spent in Other_tasks :    26.7180176    
 Time spent in Total :    792.286682    
Time in seconds: 842



LOG file for integration channel /P0_uux_emep/all_G1_100, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       29264
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      735036
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0060215308435403E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:         100
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      735036           1
 imode is           -1
channel    1 :     1 F        0    24013  0.3272E-04  0.0000E+00  0.9799E+00
channel    2 :     1 F        0    24468  0.3340E-04  0.0000E+00  0.9136E+00
channel    3 :     2 F        0     8219  0.1174E-04  0.0000E+00  0.9866E+00
channel    4 :     2 F        0     8835  0.1197E-04  0.0000E+00  0.9237E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       735036  -->       559872
Using random seed offsets:     0 ,      1 , 315700
  with seed                   49
 Ranmar initialization seeds         124       24314
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.416625D+04 0.416625D+04  1.00
 muF1, muF1_reference: 0.416625D+04 0.416625D+04  1.00
 muF2, muF2_reference: 0.416625D+04 0.416625D+04  1.00
 QES,  QES_reference:  0.416625D+04 0.416625D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5097007145669095E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4043613977976763E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4208219892701272E-005           OLP:   -1.4208219892701273E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0719184112315861E-006           OLP:   -5.0719184112312879E-006
  FINITE:
           OLP:   -9.5589712687452482E-004
           BORN:    4.0947505993074972E-003
  MOMENTA (Exyzm): 
           1   2421.5630965879814        0.0000000000000000        0.0000000000000000        2421.5630965879814        0.0000000000000000     
           2   2421.5630965879814       -0.0000000000000000       -0.0000000000000000       -2421.5630965879814        0.0000000000000000     
           3   2421.5630965879814       -1600.0824262754877       -1235.4902929596931        1333.1420764057718        0.0000000000000000     
           4   2421.5630965879814        1600.0824262754877        1235.4902929596931       -1333.1420764057718        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4208219892701272E-005           OLP:   -1.4208219892701273E-005
  COEFFICIENT SINGLE POLE:
        MadFKS:   -5.0719184112315869E-006           OLP:   -5.0719184112312879E-006
ABS integral  = 0.9031E-06  +/-  0.1834E-08  (   0.203 %)
Integral      = 0.5166E-06  +/-  0.2084E-08  (   0.403 %)
Virtual       = 0.3726E-09  +/-  0.1060E-08  ( 284.490 %)
Virtual ratio = -.1938E+00  +/-  0.4126E-03  (   0.213 %)
ABS virtual   = 0.4841E-06  +/-  0.8395E-09  (   0.173 %)
Born          = 0.1902E-05  +/-  0.2706E-08  (   0.142 %)
V  2          = 0.3726E-09  +/-  0.1060E-08  ( 284.490 %)
B  2          = 0.1902E-05  +/-  0.2706E-08  (   0.142 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9031E-06  +/-  0.1834E-08  (   0.203 %)
accumulated results Integral      = 0.5166E-06  +/-  0.2084E-08  (   0.403 %)
accumulated results Virtual       = 0.3726E-09  +/-  0.1060E-08  ( 284.490 %)
accumulated results Virtual ratio = -.1938E+00  +/-  0.4126E-03  (   0.213 %)
accumulated results ABS virtual   = 0.4841E-06  +/-  0.8395E-09  (   0.173 %)
accumulated results Born          = 0.1902E-05  +/-  0.2706E-08  (   0.142 %)
accumulated results V  2          = 0.3726E-09  +/-  0.1060E-08  ( 284.490 %)
accumulated results B  2          = 0.1902E-05  +/-  0.2706E-08  (   0.142 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   204134    24013  0.3284E-06  0.1873E-06  0.1000E+01
channel    2 :     1 T   208066    24468  0.3366E-06  0.1996E-06  0.9408E+00
channel    3 :     2 T    73015     8219  0.1183E-06  0.6208E-07  0.8946E+00
channel    4 :     2 T    74652     8835  0.1199E-06  0.6766E-07  0.9838E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0308486316262177E-007  +/-   1.8335402947802709E-009
 Final result:   5.1661483422248271E-007  +/-   2.0837140730705467E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    406384
   Stability unknown:                                          0
   Stable PS point:                                       406384
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 406384
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       406384
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.59448600    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.54682541    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.83277225    
 Time spent in Integrated_CT :    10.0779419    
 Time spent in Virtuals :    609.298706    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.17105675    
 Time spent in N1body_prefactor :   0.847167492    
 Time spent in Adding_alphas_pdf :    10.6595020    
 Time spent in Reweight_scale :    44.7422714    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.0541630    
 Time spent in Applying_cuts :    5.99550247    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    43.7982712    
 Time spent in Other_tasks :    27.0186768    
 Time spent in Total :    792.637268    
Time in seconds: 842



LOG file for integration channel /P0_ddx_emep/all_G1_1, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       29479
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           1
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,   3157
  with seed                   49
 Ranmar initialization seeds         124       12582
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.420194D+04 0.420194D+04  1.00
 muF1, muF1_reference: 0.420194D+04 0.420194D+04  1.00
 muF2, muF2_reference: 0.420194D+04 0.420194D+04  1.00
 QES,  QES_reference:  0.420194D+04 0.420194D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5036503872635579E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3310924238114375E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6657906471744967E-006           OLP:   -6.6657906471745001E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6199356247894152E-005           OLP:   -1.6199356247893908E-005
  FINITE:
           OLP:   -3.8968148984667934E-004
           BORN:    2.4973695219776648E-003
  MOMENTA (Exyzm): 
           1   2696.0051398094320        0.0000000000000000        0.0000000000000000        2696.0051398094320        0.0000000000000000     
           2   2696.0051398094320       -0.0000000000000000       -0.0000000000000000       -2696.0051398094320        0.0000000000000000     
           3   2696.0051398094320       -1733.9772244582607       -1091.5430306040737        1752.2273001179315        0.0000000000000000     
           4   2696.0051398094320        1733.9772244582607        1091.5430306040737       -1752.2273001179315        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6657906471744967E-006           OLP:   -6.6657906471745001E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6199356247894152E-005           OLP:   -1.6199356247893908E-005
ABS integral  = 0.8595E-06  +/-  0.2203E-08  (   0.256 %)
Integral      = 0.5993E-06  +/-  0.2352E-08  (   0.392 %)
Virtual       = 0.1320E-08  +/-  0.1036E-08  (  78.463 %)
Virtual ratio = -.2848E+00  +/-  0.3957E-03  (   0.139 %)
ABS virtual   = 0.3745E-06  +/-  0.9072E-09  (   0.242 %)
Born          = 0.1838E-05  +/-  0.3342E-08  (   0.182 %)
V  2          = 0.1320E-08  +/-  0.1036E-08  (  78.463 %)
B  2          = 0.1838E-05  +/-  0.3342E-08  (   0.182 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8595E-06  +/-  0.2203E-08  (   0.256 %)
accumulated results Integral      = 0.5993E-06  +/-  0.2352E-08  (   0.392 %)
accumulated results Virtual       = 0.1320E-08  +/-  0.1036E-08  (  78.463 %)
accumulated results Virtual ratio = -.2848E+00  +/-  0.3957E-03  (   0.139 %)
accumulated results ABS virtual   = 0.3745E-06  +/-  0.9072E-09  (   0.242 %)
accumulated results Born          = 0.1838E-05  +/-  0.3342E-08  (   0.182 %)
accumulated results V  2          = 0.1320E-08  +/-  0.1036E-08  (  78.463 %)
accumulated results B  2          = 0.1838E-05  +/-  0.3342E-08  (   0.182 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                                1                             2                3                   4
channel    1 :     1 T    96683    11397  0.1487E-06  0.9768E-07  0.6383E+00
channel    2 :     1 T    95954    11290  0.1464E-06  0.1005E-06  0.7742E+00
channel    3 :     2 T   184360    21153  0.2820E-06  0.1983E-06  0.7438E+00
channel    4 :     2 T   182880    21693  0.2825E-06  0.2028E-06  0.6449E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5949853913386846E-007  +/-   2.2027886737367413E-009
 Final result:   5.9927329617360717E-007  +/-   2.3516603898603818E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    328096
   Stability unknown:                                          0
   Stable PS point:                                       328096
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 328096
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       328096
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.49553502    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.44900513    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.48386192    
 Time spent in Integrated_CT :    9.34393311    
 Time spent in Virtuals :    494.493988    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.76169682    
 Time spent in N1body_prefactor :   0.861093700    
 Time spent in Adding_alphas_pdf :    10.1055641    
 Time spent in Reweight_scale :    43.9726486    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.5936394    
 Time spent in Applying_cuts :    5.88857269    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    41.9366989    
 Time spent in Other_tasks :    26.2357178    
 Time spent in Total :    671.621948    
Time in seconds: 716



LOG file for integration channel /P0_ddx_emep/all_G1_2, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       29501
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           2
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,   6314
  with seed                   49
 Ranmar initialization seeds         124       15739
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.435653D+04 0.435653D+04  1.00
 muF1, muF1_reference: 0.435653D+04 0.435653D+04  1.00
 muF2, muF2_reference: 0.435653D+04 0.435653D+04  1.00
 QES,  QES_reference:  0.435653D+04 0.435653D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4781346380307714E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3296100432368658E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7624193019149746E-006           OLP:   -6.7624193019149848E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6607235433197696E-005           OLP:   -1.6607235433197662E-005
  FINITE:
           OLP:   -3.8122830399232085E-004
           BORN:    2.5335718976704658E-003
  MOMENTA (Exyzm): 
           1   2701.9287106045463        0.0000000000000000        0.0000000000000000        2701.9287106045463        0.0000000000000000     
           2   2701.9287106045463       -0.0000000000000000       -0.0000000000000000       -2701.9287106045463        0.0000000000000000     
           3   2701.9287106045463       -1278.3557988973309       -1570.3734616385734        1788.8969784747237        0.0000000000000000     
           4   2701.9287106045463        1278.3557988973309        1570.3734616385734       -1788.8969784747237        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7624193019149746E-006           OLP:   -6.7624193019149848E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6607235433197693E-005           OLP:   -1.6607235433197662E-005
ABS integral  = 0.8556E-06  +/-  0.1841E-08  (   0.215 %)
Integral      = 0.5973E-06  +/-  0.2015E-08  (   0.337 %)
Virtual       = 0.1050E-08  +/-  0.1027E-08  (  97.770 %)
Virtual ratio = -.2851E+00  +/-  0.3960E-03  (   0.139 %)
ABS virtual   = 0.3736E-06  +/-  0.8970E-09  (   0.240 %)
Born          = 0.1833E-05  +/-  0.3299E-08  (   0.180 %)
V  2          = 0.1050E-08  +/-  0.1027E-08  (  97.770 %)
B  2          = 0.1833E-05  +/-  0.3299E-08  (   0.180 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8556E-06  +/-  0.1841E-08  (   0.215 %)
accumulated results Integral      = 0.5973E-06  +/-  0.2015E-08  (   0.337 %)
accumulated results Virtual       = 0.1050E-08  +/-  0.1027E-08  (  97.770 %)
accumulated results Virtual ratio = -.2851E+00  +/-  0.3960E-03  (   0.139 %)
accumulated results ABS virtual   = 0.3736E-06  +/-  0.8970E-09  (   0.240 %)
accumulated results Born          = 0.1833E-05  +/-  0.3299E-08  (   0.180 %)
accumulated results V  2          = 0.1050E-08  +/-  0.1027E-08  (  97.770 %)
accumulated results B  2          = 0.1833E-05  +/-  0.3299E-08  (   0.180 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                                1                             2                3                   4
channel    1 :     1 T    96822    11397  0.1480E-06  0.9827E-07  0.7119E+00
channel    2 :     1 T    95772    11290  0.1447E-06  0.9964E-07  0.8700E+00
channel    3 :     2 T   184565    21153  0.2827E-06  0.1972E-06  0.7301E+00
channel    4 :     2 T   182711    21693  0.2801E-06  0.2022E-06  0.8423E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5555865083342784E-007  +/-   1.8412110422761558E-009
 Final result:   5.9734913803046929E-007  +/-   2.0149764792902493E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    327907
   Stability unknown:                                          0
   Stable PS point:                                       327907
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 327907
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       327907
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.51201522    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.43617058    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.40078974    
 Time spent in Integrated_CT :    9.24526978    
 Time spent in Virtuals :    495.780609    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.70127201    
 Time spent in N1body_prefactor :   0.856958389    
 Time spent in Adding_alphas_pdf :    9.99540997    
 Time spent in Reweight_scale :    43.4412231    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.4244099    
 Time spent in Applying_cuts :    5.80080509    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    42.8519211    
 Time spent in Other_tasks :    26.2527466    
 Time spent in Total :    672.699646    
Time in seconds: 719



LOG file for integration channel /P0_ddx_emep/all_G1_3, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       29481
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           3
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,   9471
  with seed                   49
 Ranmar initialization seeds         124       18896
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.443652D+04 0.443652D+04  1.00
 muF1, muF1_reference: 0.443652D+04 0.443652D+04  1.00
 muF2, muF2_reference: 0.443652D+04 0.443652D+04  1.00
 QES,  QES_reference:  0.443652D+04 0.443652D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4653482785446756E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3196756617111947E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.9169713306657924E-006           OLP:   -6.9169713306657924E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7277776845084135E-005           OLP:   -1.7277776845084291E-005
  FINITE:
           OLP:   -3.6940271596259022E-004
           BORN:    2.5914755353020668E-003
  MOMENTA (Exyzm): 
           1   2742.0273683381597        0.0000000000000000        0.0000000000000000        2742.0273683381597        0.0000000000000000     
           2   2742.0273683381597       -0.0000000000000000       -0.0000000000000000       -2742.0273683381597        0.0000000000000000     
           3   2742.0273683381597       -1979.9287546437340       -329.33479624463769        1868.1902492072131        0.0000000000000000     
           4   2742.0273683381597        1979.9287546437340        329.33479624463769       -1868.1902492072131        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.9169713306657924E-006           OLP:   -6.9169713306657924E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7277776845084135E-005           OLP:   -1.7277776845084291E-005
ABS integral  = 0.8580E-06  +/-  0.1864E-08  (   0.217 %)
Integral      = 0.5997E-06  +/-  0.2037E-08  (   0.340 %)
Virtual       = -.4786E-09  +/-  0.1039E-08  ( 216.995 %)
Virtual ratio = -.2859E+00  +/-  0.3954E-03  (   0.138 %)
ABS virtual   = 0.3751E-06  +/-  0.9096E-09  (   0.242 %)
Born          = 0.1842E-05  +/-  0.3351E-08  (   0.182 %)
V  2          = -.4786E-09  +/-  0.1039E-08  ( 216.995 %)
B  2          = 0.1842E-05  +/-  0.3351E-08  (   0.182 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8580E-06  +/-  0.1864E-08  (   0.217 %)
accumulated results Integral      = 0.5997E-06  +/-  0.2037E-08  (   0.340 %)
accumulated results Virtual       = -.4786E-09  +/-  0.1039E-08  ( 216.995 %)
accumulated results Virtual ratio = -.2859E+00  +/-  0.3954E-03  (   0.138 %)
accumulated results ABS virtual   = 0.3751E-06  +/-  0.9096E-09  (   0.242 %)
accumulated results Born          = 0.1842E-05  +/-  0.3351E-08  (   0.182 %)
accumulated results V  2          = -.4786E-09  +/-  0.1039E-08  ( 216.995 %)
accumulated results B  2          = 0.1842E-05  +/-  0.3351E-08  (   0.182 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                                1                             2                3                   4
channel    1 :     1 T    96044    11397  0.1469E-06  0.9688E-07  0.7027E+00
channel    2 :     1 T    96180    11290  0.1458E-06  0.1003E-06  0.8615E+00
channel    3 :     2 T   184429    21153  0.2838E-06  0.1997E-06  0.7438E+00
channel    4 :     2 T   183222    21693  0.2814E-06  0.2028E-06  0.8405E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5797782295526512E-007  +/-   1.8643248331540486E-009
 Final result:   5.9966640925603304E-007  +/-   2.0367201364026368E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    328346
   Stability unknown:                                          0
   Stable PS point:                                       328346
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 328346
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       328346
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.51187658    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.45774364    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.44828939    
 Time spent in Integrated_CT :    9.29360962    
 Time spent in Virtuals :    496.575714    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.68673706    
 Time spent in N1body_prefactor :   0.849589586    
 Time spent in Adding_alphas_pdf :    10.0906096    
 Time spent in Reweight_scale :    43.0291023    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.3781509    
 Time spent in Applying_cuts :    5.75813007    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    41.9735565    
 Time spent in Other_tasks :    26.1083374    
 Time spent in Total :    672.161560    
Time in seconds: 717



LOG file for integration channel /P0_ddx_emep/all_G1_4, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       29473
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           4
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,  12628
  with seed                   49
 Ranmar initialization seeds         124       22053
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.439458D+04 0.439458D+04  1.00
 muF1, muF1_reference: 0.439458D+04 0.439458D+04  1.00
 muF2, muF2_reference: 0.439458D+04 0.439458D+04  1.00
 QES,  QES_reference:  0.439458D+04 0.439458D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4720175657735616E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3165034802764761E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8806784102021117E-006           OLP:   -6.8806784102021159E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7118309973607103E-005           OLP:   -1.7118309973607445E-005
  FINITE:
           OLP:   -3.7483887383815489E-004
           BORN:    2.5778782235611145E-003
  MOMENTA (Exyzm): 
           1   2754.9798122627076        0.0000000000000000        0.0000000000000000        2754.9798122627076        0.0000000000000000     
           2   2754.9798122627076       -0.0000000000000000       -0.0000000000000000       -2754.9798122627076        0.0000000000000000     
           3   2754.9798122627076       -1525.8161298552939       -1336.0034687390196        1864.6430316191313        0.0000000000000000     
           4   2754.9798122627076        1525.8161298552939        1336.0034687390196       -1864.6430316191313        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8806784102021117E-006           OLP:   -6.8806784102021159E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7118309973607100E-005           OLP:   -1.7118309973607445E-005
ABS integral  = 0.8574E-06  +/-  0.1824E-08  (   0.213 %)
Integral      = 0.5985E-06  +/-  0.2000E-08  (   0.334 %)
Virtual       = 0.1796E-08  +/-  0.1036E-08  (  57.685 %)
Virtual ratio = -.2848E+00  +/-  0.3967E-03  (   0.139 %)
ABS virtual   = 0.3756E-06  +/-  0.9063E-09  (   0.241 %)
Born          = 0.1839E-05  +/-  0.3342E-08  (   0.182 %)
V  2          = 0.1796E-08  +/-  0.1036E-08  (  57.685 %)
B  2          = 0.1839E-05  +/-  0.3342E-08  (   0.182 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8574E-06  +/-  0.1824E-08  (   0.213 %)
accumulated results Integral      = 0.5985E-06  +/-  0.2000E-08  (   0.334 %)
accumulated results Virtual       = 0.1796E-08  +/-  0.1036E-08  (  57.685 %)
accumulated results Virtual ratio = -.2848E+00  +/-  0.3967E-03  (   0.139 %)
accumulated results ABS virtual   = 0.3756E-06  +/-  0.9063E-09  (   0.241 %)
accumulated results Born          = 0.1839E-05  +/-  0.3342E-08  (   0.182 %)
accumulated results V  2          = 0.1796E-08  +/-  0.1036E-08  (  57.685 %)
accumulated results B  2          = 0.1839E-05  +/-  0.3342E-08  (   0.182 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                                1                             2                3                   4
channel    1 :     1 T    97226    11397  0.1485E-06  0.9825E-07  0.7235E+00
channel    2 :     1 T    95799    11290  0.1464E-06  0.1009E-06  0.8756E+00
channel    3 :     2 T   183875    21153  0.2826E-06  0.1977E-06  0.7540E+00
channel    4 :     2 T   182974    21693  0.2798E-06  0.2016E-06  0.8468E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5739808746449072E-007  +/-   1.8237213206055114E-009
 Final result:   5.9849321959975897E-007  +/-   1.9998039270922579E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    327907
   Stability unknown:                                          0
   Stable PS point:                                       327907
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 327907
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       327907
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.51530766    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.46422815    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.47811651    
 Time spent in Integrated_CT :    9.26443481    
 Time spent in Virtuals :    496.447235    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.71330261    
 Time spent in N1body_prefactor :   0.855015576    
 Time spent in Adding_alphas_pdf :    10.1205387    
 Time spent in Reweight_scale :    43.1572952    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.5269852    
 Time spent in Applying_cuts :    5.80751133    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    42.1390152    
 Time spent in Other_tasks :    26.2351074    
 Time spent in Total :    672.724121    
Time in seconds: 719



LOG file for integration channel /P0_ddx_emep/all_G1_5, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       29474
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           5
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,  15785
  with seed                   49
 Ranmar initialization seeds         124       25210
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.400591D+04 0.400591D+04  1.00
 muF1, muF1_reference: 0.400591D+04 0.400591D+04  1.00
 muF2, muF2_reference: 0.400591D+04 0.400591D+04  1.00
 QES,  QES_reference:  0.400591D+04 0.400591D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5376543865582818E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3369192721564544E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7658983414254220E-006           OLP:   -6.7658983414254254E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6621985316474301E-005           OLP:   -1.6621985316474369E-005
  FINITE:
           OLP:   -3.7764760709430684E-004
           BORN:    2.5348753360319499E-003
  MOMENTA (Exyzm): 
           1   2672.8700466882779        0.0000000000000000        0.0000000000000000        2672.8700466882779        0.0000000000000000     
           2   2672.8700466882779       -0.0000000000000000       -0.0000000000000000       -2672.8700466882779        0.0000000000000000     
           3   2672.8700466882779       -1967.2227594672277       -372.18231794795025        1770.8046824323778        0.0000000000000000     
           4   2672.8700466882779        1967.2227594672277        372.18231794795025       -1770.8046824323778        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7658983414254220E-006           OLP:   -6.7658983414254254E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6621985316474301E-005           OLP:   -1.6621985316474369E-005
ABS integral  = 0.8567E-06  +/-  0.1906E-08  (   0.222 %)
Integral      = 0.5967E-06  +/-  0.2075E-08  (   0.348 %)
Virtual       = 0.9958E-10  +/-  0.1032E-08  ( ******* %)
Virtual ratio = -.2855E+00  +/-  0.3950E-03  (   0.138 %)
ABS virtual   = 0.3737E-06  +/-  0.9032E-09  (   0.242 %)
Born          = 0.1835E-05  +/-  0.3316E-08  (   0.181 %)
V  2          = 0.9958E-10  +/-  0.1032E-08  ( ******* %)
B  2          = 0.1835E-05  +/-  0.3316E-08  (   0.181 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8567E-06  +/-  0.1906E-08  (   0.222 %)
accumulated results Integral      = 0.5967E-06  +/-  0.2075E-08  (   0.348 %)
accumulated results Virtual       = 0.9958E-10  +/-  0.1032E-08  ( ******* %)
accumulated results Virtual ratio = -.2855E+00  +/-  0.3950E-03  (   0.138 %)
accumulated results ABS virtual   = 0.3737E-06  +/-  0.9032E-09  (   0.242 %)
accumulated results Born          = 0.1835E-05  +/-  0.3316E-08  (   0.181 %)
accumulated results V  2          = 0.9958E-10  +/-  0.1032E-08  ( ******* %)
accumulated results B  2          = 0.1835E-05  +/-  0.3316E-08  (   0.181 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                   1                                               2
  2:  0                                1                             2                3                   4
channel    1 :     1 T    96788    11397  0.1492E-06  0.9909E-07  0.7105E+00
channel    2 :     1 T    95855    11290  0.1471E-06  0.1001E-06  0.7344E+00
channel    3 :     2 T   184362    21153  0.2819E-06  0.1970E-06  0.7560E+00
channel    4 :     2 T   182870    21693  0.2785E-06  0.2005E-06  0.8503E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5667919397235709E-007  +/-   1.9055005160840376E-009
 Final result:   5.9673629672636166E-007  +/-   2.0750273019458737E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    328145
   Stability unknown:                                          0
   Stable PS point:                                       328145
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 328145
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       328145
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.48426664    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.41774654    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.46471119    
 Time spent in Integrated_CT :    9.33840942    
 Time spent in Virtuals :    494.152039    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.71886444    
 Time spent in N1body_prefactor :   0.863975525    
 Time spent in Adding_alphas_pdf :    10.0996027    
 Time spent in Reweight_scale :    43.1644592    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.5111084    
 Time spent in Applying_cuts :    5.81939983    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    41.9595528    
 Time spent in Other_tasks :    26.2285767    
 Time spent in Total :    670.222717    
Time in seconds: 697



LOG file for integration channel /P0_ddx_emep/all_G1_6, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       29480
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           6
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,  18942
  with seed                   49
 Ranmar initialization seeds         124       28367
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.430034D+04 0.430034D+04  1.00
 muF1, muF1_reference: 0.430034D+04 0.430034D+04  1.00
 muF2, muF2_reference: 0.430034D+04 0.430034D+04  1.00
 QES,  QES_reference:  0.430034D+04 0.430034D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4872836541035673E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3273110200659214E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8204620427560747E-006           OLP:   -6.8204620427560747E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6856361290596225E-005           OLP:   -1.6856361290595371E-005
  FINITE:
           OLP:   -3.7639531841632224E-004
           BORN:    2.5553178809485416E-003
  MOMENTA (Exyzm): 
           1   2711.1461585346551        0.0000000000000000        0.0000000000000000        2711.1461585346551        0.0000000000000000     
           2   2711.1461585346551       -0.0000000000000000       -0.0000000000000000       -2711.1461585346551        0.0000000000000000     
           3   2711.1461585346551       -1252.9418778966053       -1577.1696740698192        1814.6586353208820        0.0000000000000000     
           4   2711.1461585346551        1252.9418778966053        1577.1696740698192       -1814.6586353208820        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8204620427560747E-006           OLP:   -6.8204620427560747E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6856361290596228E-005           OLP:   -1.6856361290595371E-005
ABS integral  = 0.8559E-06  +/-  0.1846E-08  (   0.216 %)
Integral      = 0.5986E-06  +/-  0.2019E-08  (   0.337 %)
Virtual       = 0.9420E-09  +/-  0.1034E-08  ( 109.733 %)
Virtual ratio = -.2852E+00  +/-  0.3959E-03  (   0.139 %)
ABS virtual   = 0.3739E-06  +/-  0.9049E-09  (   0.242 %)
Born          = 0.1836E-05  +/-  0.3311E-08  (   0.180 %)
V  2          = 0.9420E-09  +/-  0.1034E-08  ( 109.733 %)
B  2          = 0.1836E-05  +/-  0.3311E-08  (   0.180 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8559E-06  +/-  0.1846E-08  (   0.216 %)
accumulated results Integral      = 0.5986E-06  +/-  0.2019E-08  (   0.337 %)
accumulated results Virtual       = 0.9420E-09  +/-  0.1034E-08  ( 109.733 %)
accumulated results Virtual ratio = -.2852E+00  +/-  0.3959E-03  (   0.139 %)
accumulated results ABS virtual   = 0.3739E-06  +/-  0.9049E-09  (   0.242 %)
accumulated results Born          = 0.1836E-05  +/-  0.3311E-08  (   0.180 %)
accumulated results V  2          = 0.9420E-09  +/-  0.1034E-08  ( 109.733 %)
accumulated results B  2          = 0.1836E-05  +/-  0.3311E-08  (   0.180 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                   1                                               2
  2:  0                                1                             2                3                   4
channel    1 :     1 T    96429    11397  0.1472E-06  0.9766E-07  0.7139E+00
channel    2 :     1 T    96243    11290  0.1464E-06  0.1016E-06  0.8580E+00
channel    3 :     2 T   183824    21153  0.2828E-06  0.1990E-06  0.7514E+00
channel    4 :     2 T   183374    21693  0.2795E-06  0.2003E-06  0.8369E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5591866072080785E-007  +/-   1.8459662459195563E-009
 Final result:   5.9864217484319342E-007  +/-   2.0189110529341597E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    328203
   Stability unknown:                                          0
   Stable PS point:                                       328203
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 328203
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       328203
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.48414671    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.40784836    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.39930153    
 Time spent in Integrated_CT :    9.33868408    
 Time spent in Virtuals :    499.932159    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.62968254    
 Time spent in N1body_prefactor :   0.875362337    
 Time spent in Adding_alphas_pdf :    10.8279057    
 Time spent in Reweight_scale :    45.6600876    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.4800720    
 Time spent in Applying_cuts :    5.90554237    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    42.0803757    
 Time spent in Other_tasks :    26.6687622    
 Time spent in Total :    679.689941    
Time in seconds: 764



LOG file for integration channel /P0_ddx_emep/all_G1_7, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       29502
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           7
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,  22099
  with seed                   49
 Ranmar initialization seeds         124        1443
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.445537D+04 0.445537D+04  1.00
 muF1, muF1_reference: 0.445537D+04 0.445537D+04  1.00
 muF2, muF2_reference: 0.445537D+04 0.445537D+04  1.00
 QES,  QES_reference:  0.445537D+04 0.445537D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4623753498296794E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3244404718767558E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7731892035962084E-006           OLP:   -6.7731892035962050E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6653282991947670E-005           OLP:   -1.6653282991947490E-005
  FINITE:
           OLP:   -3.8246679712767196E-004
           BORN:    2.5376068915124658E-003
  MOMENTA (Exyzm): 
           1   2722.7074496573464        0.0000000000000000        0.0000000000000000        2722.7074496573464        0.0000000000000000     
           2   2722.7074496573464       -0.0000000000000000       -0.0000000000000000       -2722.7074496573464        0.0000000000000000     
           3   2722.7074496573464       -1485.6704799594577       -1393.9406171123180        1806.3356934305361        0.0000000000000000     
           4   2722.7074496573464        1485.6704799594577        1393.9406171123180       -1806.3356934305361        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7731892035962084E-006           OLP:   -6.7731892035962050E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6653282991947673E-005           OLP:   -1.6653282991947490E-005
ABS integral  = 0.8594E-06  +/-  0.1856E-08  (   0.216 %)
Integral      = 0.6004E-06  +/-  0.2029E-08  (   0.338 %)
Virtual       = 0.1724E-08  +/-  0.1040E-08  (  60.289 %)
Virtual ratio = -.2849E+00  +/-  0.3965E-03  (   0.139 %)
ABS virtual   = 0.3764E-06  +/-  0.9097E-09  (   0.242 %)
Born          = 0.1840E-05  +/-  0.3326E-08  (   0.181 %)
V  2          = 0.1724E-08  +/-  0.1040E-08  (  60.289 %)
B  2          = 0.1840E-05  +/-  0.3326E-08  (   0.181 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8594E-06  +/-  0.1856E-08  (   0.216 %)
accumulated results Integral      = 0.6004E-06  +/-  0.2029E-08  (   0.338 %)
accumulated results Virtual       = 0.1724E-08  +/-  0.1040E-08  (  60.289 %)
accumulated results Virtual ratio = -.2849E+00  +/-  0.3965E-03  (   0.139 %)
accumulated results ABS virtual   = 0.3764E-06  +/-  0.9097E-09  (   0.242 %)
accumulated results Born          = 0.1840E-05  +/-  0.3326E-08  (   0.181 %)
accumulated results V  2          = 0.1724E-08  +/-  0.1040E-08  (  60.289 %)
accumulated results B  2          = 0.1840E-05  +/-  0.3326E-08  (   0.181 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                                1                             2                3                   4
channel    1 :     1 T    96565    11397  0.1477E-06  0.9787E-07  0.7178E+00
channel    2 :     1 T    96461    11290  0.1493E-06  0.1030E-06  0.8570E+00
channel    3 :     2 T   184171    21153  0.2827E-06  0.1972E-06  0.7376E+00
channel    4 :     2 T   182672    21693  0.2797E-06  0.2023E-06  0.8512E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5941835136640533E-007  +/-   1.8555210343540652E-009
 Final result:   6.0044567636403993E-007  +/-   2.0293418971919019E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    328343
   Stability unknown:                                          0
   Stable PS point:                                       328343
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 328343
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       328343
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.49319649    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.44714880    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.51840687    
 Time spent in Integrated_CT :    9.40771484    
 Time spent in Virtuals :    496.461121    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.64268303    
 Time spent in N1body_prefactor :   0.867362916    
 Time spent in Adding_alphas_pdf :    10.1157322    
 Time spent in Reweight_scale :    43.8080330    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.7208309    
 Time spent in Applying_cuts :    6.00647354    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    42.2254829    
 Time spent in Other_tasks :    26.4329224    
 Time spent in Total :    674.147095    
Time in seconds: 729



LOG file for integration channel /P0_ddx_emep/all_G1_8, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       29478
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           8
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,  25256
  with seed                   49
 Ranmar initialization seeds         124        4600
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.426296D+04 0.426296D+04  1.00
 muF1, muF1_reference: 0.426296D+04 0.426296D+04  1.00
 muF2, muF2_reference: 0.426296D+04 0.426296D+04  1.00
 QES,  QES_reference:  0.426296D+04 0.426296D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4934480988490912E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3361229167600697E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6558062670189768E-006           OLP:   -6.6558062670189810E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6157625411640192E-005           OLP:   -1.6157625411640405E-005
  FINITE:
           OLP:   -3.8835202887618070E-004
           BORN:    2.4936288274350297E-003
  MOMENTA (Exyzm): 
           1   2676.0179727830628        0.0000000000000000        0.0000000000000000        2676.0179727830628        0.0000000000000000     
           2   2676.0179727830628       -0.0000000000000000       -0.0000000000000000       -2676.0179727830628        0.0000000000000000     
           3   2676.0179727830628       -1817.0180524150483       -919.96483936502489        1735.8520334947564        0.0000000000000000     
           4   2676.0179727830628        1817.0180524150483        919.96483936502489       -1735.8520334947564        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6558062670189768E-006           OLP:   -6.6558062670189810E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6157625411640192E-005           OLP:   -1.6157625411640405E-005
ABS integral  = 0.8579E-06  +/-  0.1878E-08  (   0.219 %)
Integral      = 0.6000E-06  +/-  0.2049E-08  (   0.341 %)
Virtual       = 0.2024E-08  +/-  0.1044E-08  (  51.598 %)
Virtual ratio = -.2847E+00  +/-  0.3963E-03  (   0.139 %)
ABS virtual   = 0.3758E-06  +/-  0.9155E-09  (   0.244 %)
Born          = 0.1840E-05  +/-  0.3349E-08  (   0.182 %)
V  2          = 0.2024E-08  +/-  0.1044E-08  (  51.598 %)
B  2          = 0.1840E-05  +/-  0.3349E-08  (   0.182 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8579E-06  +/-  0.1878E-08  (   0.219 %)
accumulated results Integral      = 0.6000E-06  +/-  0.2049E-08  (   0.341 %)
accumulated results Virtual       = 0.2024E-08  +/-  0.1044E-08  (  51.598 %)
accumulated results Virtual ratio = -.2847E+00  +/-  0.3963E-03  (   0.139 %)
accumulated results ABS virtual   = 0.3758E-06  +/-  0.9155E-09  (   0.244 %)
accumulated results Born          = 0.1840E-05  +/-  0.3349E-08  (   0.182 %)
accumulated results V  2          = 0.2024E-08  +/-  0.1044E-08  (  51.598 %)
accumulated results B  2          = 0.1840E-05  +/-  0.3349E-08  (   0.182 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                                1                             2                3                   4
channel    1 :     1 T    96413    11397  0.1466E-06  0.9718E-07  0.7176E+00
channel    2 :     1 T    96604    11290  0.1476E-06  0.1018E-06  0.8781E+00
channel    3 :     2 T   184237    21153  0.2818E-06  0.1976E-06  0.7295E+00
channel    4 :     2 T   182618    21693  0.2819E-06  0.2034E-06  0.8386E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5791346793806698E-007  +/-   1.8780263118730358E-009
 Final result:   6.0004348175046150E-007  +/-   2.0490240169456692E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    328070
   Stability unknown:                                          0
   Stable PS point:                                       328070
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 328070
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       328070
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.48450494    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.43974113    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.51577806    
 Time spent in Integrated_CT :    9.39138794    
 Time spent in Virtuals :    499.431641    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.69419289    
 Time spent in N1body_prefactor :   0.867525697    
 Time spent in Adding_alphas_pdf :    10.0886993    
 Time spent in Reweight_scale :    43.3898315    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.5092621    
 Time spent in Applying_cuts :    5.90464115    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    42.0807686    
 Time spent in Other_tasks :    26.4034424    
 Time spent in Total :    676.201477    
Time in seconds: 765



LOG file for integration channel /P0_ddx_emep/all_G1_9, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       29484
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           9
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,  28413
  with seed                   49
 Ranmar initialization seeds         124        7757
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.437070D+04 0.437070D+04  1.00
 muF1, muF1_reference: 0.437070D+04 0.437070D+04  1.00
 muF2, muF2_reference: 0.437070D+04 0.437070D+04  1.00
 QES,  QES_reference:  0.437070D+04 0.437070D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4758491426769644E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3251653984811954E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8320019864906889E-006           OLP:   -6.8320019864906940E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6906291857056366E-005           OLP:   -1.6906291857056999E-005
  FINITE:
           OLP:   -3.7615213404627781E-004
           BORN:    2.5596413746334775E-003
  MOMENTA (Exyzm): 
           1   2719.7822559314750        0.0000000000000000        0.0000000000000000        2719.7822559314750        0.0000000000000000     
           2   2719.7822559314750       -0.0000000000000000       -0.0000000000000000       -2719.7822559314750        0.0000000000000000     
           3   2719.7822559314750       -1594.0130346718440       -1236.1531051978905        1824.3528895160537        0.0000000000000000     
           4   2719.7822559314750        1594.0130346718440        1236.1531051978905       -1824.3528895160537        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8320019864906889E-006           OLP:   -6.8320019864906940E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6906291857056362E-005           OLP:   -1.6906291857056999E-005
ABS integral  = 0.8587E-06  +/-  0.1893E-08  (   0.220 %)
Integral      = 0.5973E-06  +/-  0.2065E-08  (   0.346 %)
Virtual       = 0.1303E-08  +/-  0.1035E-08  (  79.406 %)
Virtual ratio = -.2847E+00  +/-  0.3966E-03  (   0.139 %)
ABS virtual   = 0.3748E-06  +/-  0.9056E-09  (   0.242 %)
Born          = 0.1837E-05  +/-  0.3334E-08  (   0.181 %)
V  2          = 0.1303E-08  +/-  0.1035E-08  (  79.406 %)
B  2          = 0.1837E-05  +/-  0.3334E-08  (   0.181 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8587E-06  +/-  0.1893E-08  (   0.220 %)
accumulated results Integral      = 0.5973E-06  +/-  0.2065E-08  (   0.346 %)
accumulated results Virtual       = 0.1303E-08  +/-  0.1035E-08  (  79.406 %)
accumulated results Virtual ratio = -.2847E+00  +/-  0.3966E-03  (   0.139 %)
accumulated results ABS virtual   = 0.3748E-06  +/-  0.9056E-09  (   0.242 %)
accumulated results Born          = 0.1837E-05  +/-  0.3334E-08  (   0.181 %)
accumulated results V  2          = 0.1303E-08  +/-  0.1035E-08  (  79.406 %)
accumulated results B  2          = 0.1837E-05  +/-  0.3334E-08  (   0.181 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                                1                             2                3                   4
channel    1 :     1 T    97110    11397  0.1490E-06  0.9709E-07  0.7043E+00
channel    2 :     1 T    96004    11290  0.1455E-06  0.9983E-07  0.8547E+00
channel    3 :     2 T   184250    21153  0.2840E-06  0.1987E-06  0.7189E+00
channel    4 :     2 T   182506    21693  0.2802E-06  0.2017E-06  0.8315E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5868228610230055E-007  +/-   1.8933255977547836E-009
 Final result:   5.9734711231404307E-007  +/-   2.0650235680796923E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    328194
   Stability unknown:                                          0
   Stable PS point:                                       328194
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 328194
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       328194
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.52147317    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.43414354    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.44664001    
 Time spent in Integrated_CT :    9.29785156    
 Time spent in Virtuals :    494.245148    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.64349270    
 Time spent in N1body_prefactor :   0.857443810    
 Time spent in Adding_alphas_pdf :    10.2770319    
 Time spent in Reweight_scale :    43.3308334    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.5035133    
 Time spent in Applying_cuts :    5.75974560    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    41.9347763    
 Time spent in Other_tasks :    26.1346436    
 Time spent in Total :    670.386719    
Time in seconds: 698



LOG file for integration channel /P0_ddx_emep/all_G1_10, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       29485
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          10
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,  31570
  with seed                   49
 Ranmar initialization seeds         124       10914
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.447090D+04 0.447090D+04  1.00
 muF1, muF1_reference: 0.447090D+04 0.447090D+04  1.00
 muF2, muF2_reference: 0.447090D+04 0.447090D+04  1.00
 QES,  QES_reference:  0.447090D+04 0.447090D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4599366971481937E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3284853527932445E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7034558605100839E-006           OLP:   -6.7034558605100848E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6357375166514702E-005           OLP:   -1.6357375166514824E-005
  FINITE:
           OLP:   -3.8738096205005452E-004
           BORN:    2.5114809696366088E-003
  MOMENTA (Exyzm): 
           1   2706.4332648908762        0.0000000000000000        0.0000000000000000        2706.4332648908762        0.0000000000000000     
           2   2706.4332648908762       -0.0000000000000000       -0.0000000000000000       -2706.4332648908762        0.0000000000000000     
           3   2706.4332648908762       -2045.6236157888063       -27.094103281812817        1771.8552281161042        0.0000000000000000     
           4   2706.4332648908762        2045.6236157888063        27.094103281812817       -1771.8552281161042        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7034558605100839E-006           OLP:   -6.7034558605100848E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6357375166514706E-005           OLP:   -1.6357375166514824E-005
ABS integral  = 0.8594E-06  +/-  0.1850E-08  (   0.215 %)
Integral      = 0.6008E-06  +/-  0.2024E-08  (   0.337 %)
Virtual       = 0.1154E-08  +/-  0.1037E-08  (  89.883 %)
Virtual ratio = -.2849E+00  +/-  0.3959E-03  (   0.139 %)
ABS virtual   = 0.3763E-06  +/-  0.9069E-09  (   0.241 %)
Born          = 0.1841E-05  +/-  0.3333E-08  (   0.181 %)
V  2          = 0.1154E-08  +/-  0.1037E-08  (  89.883 %)
B  2          = 0.1841E-05  +/-  0.3333E-08  (   0.181 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8594E-06  +/-  0.1850E-08  (   0.215 %)
accumulated results Integral      = 0.6008E-06  +/-  0.2024E-08  (   0.337 %)
accumulated results Virtual       = 0.1154E-08  +/-  0.1037E-08  (  89.883 %)
accumulated results Virtual ratio = -.2849E+00  +/-  0.3959E-03  (   0.139 %)
accumulated results ABS virtual   = 0.3763E-06  +/-  0.9069E-09  (   0.241 %)
accumulated results Born          = 0.1841E-05  +/-  0.3333E-08  (   0.181 %)
accumulated results V  2          = 0.1154E-08  +/-  0.1037E-08  (  89.883 %)
accumulated results B  2          = 0.1841E-05  +/-  0.3333E-08  (   0.181 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                                1                             2                3                   4
channel    1 :     1 T    97028    11397  0.1491E-06  0.9812E-07  0.7088E+00
channel    2 :     1 T    95546    11290  0.1455E-06  0.1002E-06  0.8545E+00
channel    3 :     2 T   184508    21153  0.2837E-06  0.1984E-06  0.7372E+00
channel    4 :     2 T   182786    21693  0.2811E-06  0.2041E-06  0.8589E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5942667591311483E-007  +/-   1.8497393803674495E-009
 Final result:   6.0083674449493757E-007  +/-   2.0238558418234946E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    328672
   Stability unknown:                                          0
   Stable PS point:                                       328672
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 328672
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       328672
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.48953700    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.43031216    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.43889999    
 Time spent in Integrated_CT :    9.22979736    
 Time spent in Virtuals :    494.748199    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.61063957    
 Time spent in N1body_prefactor :   0.862848401    
 Time spent in Adding_alphas_pdf :    10.1858635    
 Time spent in Reweight_scale :    43.8685570    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.3511314    
 Time spent in Applying_cuts :    5.73888445    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    42.0712624    
 Time spent in Other_tasks :    26.2520752    
 Time spent in Total :    671.278015    
Time in seconds: 716



LOG file for integration channel /P0_ddx_emep/all_G1_11, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       29482
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          11
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,  34727
  with seed                   49
 Ranmar initialization seeds         124       14071
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.233540D+04 0.233540D+04  1.00
 muF1, muF1_reference: 0.233540D+04 0.233540D+04  1.00
 muF2, muF2_reference: 0.233540D+04 0.233540D+04  1.00
 QES,  QES_reference:  0.233540D+04 0.233540D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.9445555156208769E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3353404000258624E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7856911418805501E-006           OLP:   -6.7856911418805501E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6706658104120562E-005           OLP:   -1.6706658104121226E-005
  FINITE:
           OLP:   -3.7637547826226830E-004
           BORN:    2.5422908009374032E-003
  MOMENTA (Exyzm): 
           1   2679.1154853480198        0.0000000000000000        0.0000000000000000        2679.1154853480198        0.0000000000000000     
           2   2679.1154853480198       -0.0000000000000000       -0.0000000000000000       -2679.1154853480198        0.0000000000000000     
           3   2679.1154853480198       -1633.1425469181681       -1156.0655328317077        1781.5773037047070        0.0000000000000000     
           4   2679.1154853480198        1633.1425469181681        1156.0655328317077       -1781.5773037047070        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7856911418805501E-006           OLP:   -6.7856911418805501E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6706658104120562E-005           OLP:   -1.6706658104121226E-005
ABS integral  = 0.8597E-06  +/-  0.1864E-08  (   0.217 %)
Integral      = 0.6003E-06  +/-  0.2037E-08  (   0.339 %)
Virtual       = 0.6597E-09  +/-  0.1032E-08  ( 156.448 %)
Virtual ratio = -.2853E+00  +/-  0.3965E-03  (   0.139 %)
ABS virtual   = 0.3751E-06  +/-  0.9023E-09  (   0.241 %)
Born          = 0.1840E-05  +/-  0.3347E-08  (   0.182 %)
V  2          = 0.6597E-09  +/-  0.1032E-08  ( 156.448 %)
B  2          = 0.1840E-05  +/-  0.3347E-08  (   0.182 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8597E-06  +/-  0.1864E-08  (   0.217 %)
accumulated results Integral      = 0.6003E-06  +/-  0.2037E-08  (   0.339 %)
accumulated results Virtual       = 0.6597E-09  +/-  0.1032E-08  ( 156.448 %)
accumulated results Virtual ratio = -.2853E+00  +/-  0.3965E-03  (   0.139 %)
accumulated results ABS virtual   = 0.3751E-06  +/-  0.9023E-09  (   0.241 %)
accumulated results Born          = 0.1840E-05  +/-  0.3347E-08  (   0.182 %)
accumulated results V  2          = 0.6597E-09  +/-  0.1032E-08  ( 156.448 %)
accumulated results B  2          = 0.1840E-05  +/-  0.3347E-08  (   0.182 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                                1                             2                3                   4
channel    1 :     1 T    96406    11397  0.1495E-06  0.9904E-07  0.6875E+00
channel    2 :     1 T    96239    11290  0.1462E-06  0.9947E-07  0.8574E+00
channel    3 :     2 T   184194    21153  0.2834E-06  0.1992E-06  0.7355E+00
channel    4 :     2 T   183036    21693  0.2806E-06  0.2026E-06  0.8452E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5967305121306666E-007  +/-   1.8637019203695445E-009
 Final result:   6.0029453585306983E-007  +/-   2.0370962861492064E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    327931
   Stability unknown:                                          0
   Stable PS point:                                       327931
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 327931
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       327931
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.54524708    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.42066002    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.41782570    
 Time spent in Integrated_CT :    9.19177246    
 Time spent in Virtuals :    492.373444    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.71406269    
 Time spent in N1body_prefactor :   0.853913784    
 Time spent in Adding_alphas_pdf :    10.1560793    
 Time spent in Reweight_scale :    43.0968437    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.2249737    
 Time spent in Applying_cuts :    5.75393963    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    42.5583344    
 Time spent in Other_tasks :    26.2526855    
 Time spent in Total :    668.559875    
Time in seconds: 697



LOG file for integration channel /P0_ddx_emep/all_G1_12, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       29483
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          12
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,  37884
  with seed                   49
 Ranmar initialization seeds         124       17228
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.407898D+04 0.407898D+04  1.00
 muF1, muF1_reference: 0.407898D+04 0.407898D+04  1.00
 muF2, muF2_reference: 0.407898D+04 0.407898D+04  1.00
 QES,  QES_reference:  0.407898D+04 0.407898D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5247537695308689E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3149266696948267E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.9770950016124553E-006           OLP:   -6.9770950016124578E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7545003877169550E-005           OLP:   -1.7545003877168710E-005
  FINITE:
           OLP:   -3.6461348371557607E-004
           BORN:    2.6140011487392751E-003
  MOMENTA (Exyzm): 
           1   2761.4451271114635        0.0000000000000000        0.0000000000000000        2761.4451271114635        0.0000000000000000     
           2   2761.4451271114635       -0.0000000000000000       -0.0000000000000000       -2761.4451271114635        0.0000000000000000     
           3   2761.4451271114635       -1594.5379714215571       -1210.6917603953912        1901.9078077165518        0.0000000000000000     
           4   2761.4451271114635        1594.5379714215571        1210.6917603953912       -1901.9078077165518        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.9770950016124553E-006           OLP:   -6.9770950016124578E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7545003877169550E-005           OLP:   -1.7545003877168710E-005
ABS integral  = 0.8596E-06  +/-  0.3382E-08  (   0.393 %)
Integral      = 0.6007E-06  +/-  0.3480E-08  (   0.579 %)
Virtual       = -.8181E-09  +/-  0.1026E-08  ( 125.434 %)
Virtual ratio = -.2854E+00  +/-  0.3956E-03  (   0.139 %)
ABS virtual   = 0.3737E-06  +/-  0.8963E-09  (   0.240 %)
Born          = 0.1839E-05  +/-  0.3331E-08  (   0.181 %)
V  2          = -.8181E-09  +/-  0.1026E-08  ( 125.434 %)
B  2          = 0.1839E-05  +/-  0.3331E-08  (   0.181 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8596E-06  +/-  0.3382E-08  (   0.393 %)
accumulated results Integral      = 0.6007E-06  +/-  0.3480E-08  (   0.579 %)
accumulated results Virtual       = -.8181E-09  +/-  0.1026E-08  ( 125.434 %)
accumulated results Virtual ratio = -.2854E+00  +/-  0.3956E-03  (   0.139 %)
accumulated results ABS virtual   = 0.3737E-06  +/-  0.8963E-09  (   0.240 %)
accumulated results Born          = 0.1839E-05  +/-  0.3331E-08  (   0.181 %)
accumulated results V  2          = -.8181E-09  +/-  0.1026E-08  ( 125.434 %)
accumulated results B  2          = 0.1839E-05  +/-  0.3331E-08  (   0.181 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                   1                                               2
  2:  0                                1                            2                 3                   4
channel    1 :     1 T    96330    11397  0.1485E-06  0.9782E-07  0.6496E+00
channel    2 :     1 T    96315    11290  0.1468E-06  0.1009E-06  0.8526E+00
channel    3 :     2 T   184114    21153  0.2848E-06  0.2010E-06  0.2830E+00
channel    4 :     2 T   183109    21693  0.2795E-06  0.2010E-06  0.8467E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5958841669918145E-007  +/-   3.3815428749683421E-009
 Final result:   6.0073334976883421E-007  +/-   3.4799435934375198E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    328009
   Stability unknown:                                          0
   Stable PS point:                                       328009
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 328009
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       328009
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.49162006    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.43233013    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.44739628    
 Time spent in Integrated_CT :    9.17855835    
 Time spent in Virtuals :    495.423676    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.63277721    
 Time spent in N1body_prefactor :   0.845231533    
 Time spent in Adding_alphas_pdf :    10.1622686    
 Time spent in Reweight_scale :    42.8674774    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.5106430    
 Time spent in Applying_cuts :    5.83817244    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    41.8900681    
 Time spent in Other_tasks :    25.9859009    
 Time spent in Total :    670.706116    
Time in seconds: 698



LOG file for integration channel /P0_ddx_emep/all_G1_13, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       29408
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          13
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,  41041
  with seed                   49
 Ranmar initialization seeds         124       20385
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.440793D+04 0.440793D+04  1.00
 muF1, muF1_reference: 0.440793D+04 0.440793D+04  1.00
 muF2, muF2_reference: 0.440793D+04 0.440793D+04  1.00
 QES,  QES_reference:  0.440793D+04 0.440793D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4698871743161713E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3196477302246432E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7383629659010872E-006           OLP:   -6.7383629659010880E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6505030822142319E-005           OLP:   -1.6505030822142495E-005
  FINITE:
           OLP:   -3.8801739494066583E-004
           BORN:    2.5245590793040503E-003
  MOMENTA (Exyzm): 
           1   2742.1411008455316        0.0000000000000000        0.0000000000000000        2742.1411008455316        0.0000000000000000     
           2   2742.1411008455316       -0.0000000000000000       -0.0000000000000000       -2742.1411008455316        0.0000000000000000     
           3   2742.1411008455316       -2050.7371903819881       -218.08798199886661        1807.2776281020565        0.0000000000000000     
           4   2742.1411008455316        2050.7371903819881        218.08798199886661       -1807.2776281020565        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7383629659010872E-006           OLP:   -6.7383629659010880E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6505030822142322E-005           OLP:   -1.6505030822142495E-005
 Error #15 in genps_fks.f  -1.0505318641662598E-006           3
ABS integral  = 0.8565E-06  +/-  0.1920E-08  (   0.224 %)
Integral      = 0.5974E-06  +/-  0.2088E-08  (   0.350 %)
Virtual       = 0.9637E-09  +/-  0.1040E-08  ( 107.914 %)
Virtual ratio = -.2855E+00  +/-  0.3964E-03  (   0.139 %)
ABS virtual   = 0.3748E-06  +/-  0.9114E-09  (   0.243 %)
Born          = 0.1835E-05  +/-  0.3332E-08  (   0.182 %)
V  2          = 0.9637E-09  +/-  0.1040E-08  ( 107.914 %)
B  2          = 0.1835E-05  +/-  0.3332E-08  (   0.182 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8565E-06  +/-  0.1920E-08  (   0.224 %)
accumulated results Integral      = 0.5974E-06  +/-  0.2088E-08  (   0.350 %)
accumulated results Virtual       = 0.9637E-09  +/-  0.1040E-08  ( 107.914 %)
accumulated results Virtual ratio = -.2855E+00  +/-  0.3964E-03  (   0.139 %)
accumulated results ABS virtual   = 0.3748E-06  +/-  0.9114E-09  (   0.243 %)
accumulated results Born          = 0.1835E-05  +/-  0.3332E-08  (   0.182 %)
accumulated results V  2          = 0.9637E-09  +/-  0.1040E-08  ( 107.914 %)
accumulated results B  2          = 0.1835E-05  +/-  0.3332E-08  (   0.182 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                                1                             2                3                   4
channel    1 :     1 T    96212    11397  0.1480E-06  0.9831E-07  0.7001E+00
channel    2 :     1 T    96217    11290  0.1467E-06  0.1000E-06  0.8334E+00
channel    3 :     2 T   183551    21153  0.2807E-06  0.1959E-06  0.6928E+00
channel    4 :     2 T   183894    21693  0.2811E-06  0.2032E-06  0.8614E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5654095712237646E-007  +/-   1.9202155124159562E-009
 Final result:   5.9738377977870239E-007  +/-   2.0881163072521175E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    327726
   Stability unknown:                                          0
   Stable PS point:                                       327726
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 327726
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       327726
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.50064564    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.46111107    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.47789717    
 Time spent in Integrated_CT :    9.24133301    
 Time spent in Virtuals :    493.425659    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.69653893    
 Time spent in N1body_prefactor :   0.883741260    
 Time spent in Adding_alphas_pdf :    10.2570648    
 Time spent in Reweight_scale :    43.1958351    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.5149021    
 Time spent in Applying_cuts :    5.77607822    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    42.0020294    
 Time spent in Other_tasks :    26.0104370    
 Time spent in Total :    669.443237    
Time in seconds: 698



LOG file for integration channel /P0_ddx_emep/all_G1_14, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       29487
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          14
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,  44198
  with seed                   49
 Ranmar initialization seeds         124       23542
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.445596D+04 0.445596D+04  1.00
 muF1, muF1_reference: 0.445596D+04 0.445596D+04  1.00
 muF2, muF2_reference: 0.445596D+04 0.445596D+04  1.00
 QES,  QES_reference:  0.445596D+04 0.445596D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4622827844389228E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3327620864518162E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7369168973502350E-006           OLP:   -6.7369168973502384E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6498736115545469E-005           OLP:   -1.6498736115545801E-005
  FINITE:
           OLP:   -3.8231030448096422E-004
           BORN:    2.5240173029842192E-003
  MOMENTA (Exyzm): 
           1   2689.3516428315438        0.0000000000000000        0.0000000000000000        2689.3516428315438        0.0000000000000000     
           2   2689.3516428315438       -0.0000000000000000       -0.0000000000000000       -2689.3516428315438        0.0000000000000000     
           3   2689.3516428315438       -1893.1433468257424       -713.26874347495573        1771.9673323037894        0.0000000000000000     
           4   2689.3516428315438        1893.1433468257424        713.26874347495573       -1771.9673323037894        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7369168973502350E-006           OLP:   -6.7369168973502384E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6498736115545469E-005           OLP:   -1.6498736115545801E-005
ABS integral  = 0.8578E-06  +/-  0.1875E-08  (   0.219 %)
Integral      = 0.5982E-06  +/-  0.2047E-08  (   0.342 %)
Virtual       = 0.1200E-08  +/-  0.1033E-08  (  86.074 %)
Virtual ratio = -.2845E+00  +/-  0.3965E-03  (   0.139 %)
ABS virtual   = 0.3742E-06  +/-  0.9039E-09  (   0.242 %)
Born          = 0.1837E-05  +/-  0.3338E-08  (   0.182 %)
V  2          = 0.1200E-08  +/-  0.1033E-08  (  86.074 %)
B  2          = 0.1837E-05  +/-  0.3338E-08  (   0.182 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8578E-06  +/-  0.1875E-08  (   0.219 %)
accumulated results Integral      = 0.5982E-06  +/-  0.2047E-08  (   0.342 %)
accumulated results Virtual       = 0.1200E-08  +/-  0.1033E-08  (  86.074 %)
accumulated results Virtual ratio = -.2845E+00  +/-  0.3965E-03  (   0.139 %)
accumulated results ABS virtual   = 0.3742E-06  +/-  0.9039E-09  (   0.242 %)
accumulated results Born          = 0.1837E-05  +/-  0.3338E-08  (   0.182 %)
accumulated results V  2          = 0.1200E-08  +/-  0.1033E-08  (  86.074 %)
accumulated results B  2          = 0.1837E-05  +/-  0.3338E-08  (   0.182 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                                1                             2                3                   4
channel    1 :     1 T    96728    11397  0.1488E-06  0.9827E-07  0.7026E+00
channel    2 :     1 T    96261    11290  0.1475E-06  0.1020E-06  0.8696E+00
channel    3 :     2 T   184237    21153  0.2817E-06  0.1975E-06  0.7443E+00
channel    4 :     2 T   182646    21693  0.2798E-06  0.2004E-06  0.8116E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5781552918291419E-007  +/-   1.8749196455357913E-009
 Final result:   5.9815050192863256E-007  +/-   2.0470933891793610E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    327810
   Stability unknown:                                          0
   Stable PS point:                                       327810
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 327810
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       327810
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.49950075    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.43157768    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.44931746    
 Time spent in Integrated_CT :    9.22039795    
 Time spent in Virtuals :    494.434357    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.63845062    
 Time spent in N1body_prefactor :   0.864638805    
 Time spent in Adding_alphas_pdf :    10.0866337    
 Time spent in Reweight_scale :    43.6107559    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.3602600    
 Time spent in Applying_cuts :    5.81730032    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    42.1124306    
 Time spent in Other_tasks :    26.0086670    
 Time spent in Total :    670.534241    
Time in seconds: 697



LOG file for integration channel /P0_ddx_emep/all_G1_15, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       29477
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          15
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,  47355
  with seed                   49
 Ranmar initialization seeds         124       26699
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.457794D+04 0.457794D+04  1.00
 muF1, muF1_reference: 0.457794D+04 0.457794D+04  1.00
 muF2, muF2_reference: 0.457794D+04 0.457794D+04  1.00
 QES,  QES_reference:  0.457794D+04 0.457794D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4434034028800694E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3250043456701844E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8701464447641389E-006           OLP:   -6.8701464447641381E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7072155247957124E-005           OLP:   -1.7072155247957202E-005
  FINITE:
           OLP:   -3.7217406602447242E-004
           BORN:    2.5739323736412010E-003
  MOMENTA (Exyzm): 
           1   2720.4318072519686        0.0000000000000000        0.0000000000000000        2720.4318072519686        0.0000000000000000     
           2   2720.4318072519686       -0.0000000000000000       -0.0000000000000000       -2720.4318072519686        0.0000000000000000     
           3   2720.4318072519686       -1742.2571929277494       -994.08156536340186        1837.6862988563582        0.0000000000000000     
           4   2720.4318072519686        1742.2571929277494        994.08156536340186       -1837.6862988563582        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8701464447641389E-006           OLP:   -6.8701464447641381E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7072155247957124E-005           OLP:   -1.7072155247957202E-005
ABS integral  = 0.8603E-06  +/-  0.2498E-08  (   0.290 %)
Integral      = 0.5974E-06  +/-  0.2632E-08  (   0.441 %)
Virtual       = 0.3523E-09  +/-  0.1033E-08  ( 293.361 %)
Virtual ratio = -.2856E+00  +/-  0.3961E-03  (   0.139 %)
ABS virtual   = 0.3748E-06  +/-  0.9040E-09  (   0.241 %)
Born          = 0.1837E-05  +/-  0.3306E-08  (   0.180 %)
V  2          = 0.3523E-09  +/-  0.1033E-08  ( 293.361 %)
B  2          = 0.1837E-05  +/-  0.3306E-08  (   0.180 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8603E-06  +/-  0.2498E-08  (   0.290 %)
accumulated results Integral      = 0.5974E-06  +/-  0.2632E-08  (   0.441 %)
accumulated results Virtual       = 0.3523E-09  +/-  0.1033E-08  ( 293.361 %)
accumulated results Virtual ratio = -.2856E+00  +/-  0.3961E-03  (   0.139 %)
accumulated results ABS virtual   = 0.3748E-06  +/-  0.9040E-09  (   0.241 %)
accumulated results Born          = 0.1837E-05  +/-  0.3306E-08  (   0.180 %)
accumulated results V  2          = 0.3523E-09  +/-  0.1033E-08  ( 293.361 %)
accumulated results B  2          = 0.1837E-05  +/-  0.3306E-08  (   0.180 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                                1                             2                3                   4
channel    1 :     1 T    96815    11397  0.1486E-06  0.9805E-07  0.6906E+00
channel    2 :     1 T    95868    11290  0.1460E-06  0.1005E-06  0.8573E+00
channel    3 :     2 T   183928    21153  0.2816E-06  0.1967E-06  0.7300E+00
channel    4 :     2 T   183257    21693  0.2842E-06  0.2021E-06  0.5032E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.6033570592057094E-007  +/-   2.4980679032417795E-009
 Final result:   5.9735273721002623E-007  +/-   2.6315486668102383E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    328338
   Stability unknown:                                          0
   Stable PS point:                                       328338
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 328338
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       328338
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.53113151    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.45791626    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.49668217    
 Time spent in Integrated_CT :    9.27984619    
 Time spent in Virtuals :    493.481720    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.69389534    
 Time spent in N1body_prefactor :   0.840666771    
 Time spent in Adding_alphas_pdf :    10.2764244    
 Time spent in Reweight_scale :    43.2002983    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.5450764    
 Time spent in Applying_cuts :    5.79825497    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    42.2344627    
 Time spent in Other_tasks :    26.2630005    
 Time spent in Total :    670.099426    
Time in seconds: 697



LOG file for integration channel /P0_ddx_emep/all_G1_16, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       29476
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          16
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,  50512
  with seed                   49
 Ranmar initialization seeds         124       29856
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.456109D+04 0.456109D+04  1.00
 muF1, muF1_reference: 0.456109D+04 0.456109D+04  1.00
 muF2, muF2_reference: 0.456109D+04 0.456109D+04  1.00
 QES,  QES_reference:  0.456109D+04 0.456109D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4459756545338804E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3486843539664837E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6408408259245866E-006           OLP:   -6.6408408259245909E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6095175835132920E-005           OLP:   -1.6095175835133706E-005
  FINITE:
           OLP:   -3.8416566218945307E-004
           BORN:    2.4880219552048128E-003
  MOMENTA (Exyzm): 
           1   2626.8723488551868        0.0000000000000000        0.0000000000000000        2626.8723488551868        0.0000000000000000     
           2   2626.8723488551868       -0.0000000000000000       -0.0000000000000000       -2626.8723488551868        0.0000000000000000     
           3   2626.8723488551868       -1437.1391687224334       -1395.9130226515881        1698.9750381025219        0.0000000000000000     
           4   2626.8723488551868        1437.1391687224334        1395.9130226515881       -1698.9750381025219        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6408408259245866E-006           OLP:   -6.6408408259245909E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6095175835132920E-005           OLP:   -1.6095175835133706E-005
ABS integral  = 0.8545E-06  +/-  0.1817E-08  (   0.213 %)
Integral      = 0.5987E-06  +/-  0.1991E-08  (   0.333 %)
Virtual       = -.3938E-09  +/-  0.1024E-08  ( 259.906 %)
Virtual ratio = -.2853E+00  +/-  0.3957E-03  (   0.139 %)
ABS virtual   = 0.3733E-06  +/-  0.8937E-09  (   0.239 %)
Born          = 0.1836E-05  +/-  0.3321E-08  (   0.181 %)
V  2          = -.3938E-09  +/-  0.1024E-08  ( 259.906 %)
B  2          = 0.1836E-05  +/-  0.3321E-08  (   0.181 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8545E-06  +/-  0.1817E-08  (   0.213 %)
accumulated results Integral      = 0.5987E-06  +/-  0.1991E-08  (   0.333 %)
accumulated results Virtual       = -.3938E-09  +/-  0.1024E-08  ( 259.906 %)
accumulated results Virtual ratio = -.2853E+00  +/-  0.3957E-03  (   0.139 %)
accumulated results ABS virtual   = 0.3733E-06  +/-  0.8937E-09  (   0.239 %)
accumulated results Born          = 0.1836E-05  +/-  0.3321E-08  (   0.181 %)
accumulated results V  2          = -.3938E-09  +/-  0.1024E-08  ( 259.906 %)
accumulated results B  2          = 0.1836E-05  +/-  0.3321E-08  (   0.181 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                                1                             2                3                   4
channel    1 :     1 T    96755    11397  0.1477E-06  0.9787E-07  0.7107E+00
channel    2 :     1 T    95902    11290  0.1453E-06  0.1005E-06  0.8608E+00
channel    3 :     2 T   184032    21153  0.2804E-06  0.1981E-06  0.7536E+00
channel    4 :     2 T   183182    21693  0.2811E-06  0.2022E-06  0.8421E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5450234268834128E-007  +/-   1.8168356668853853E-009
 Final result:   5.9873141606874818E-007  +/-   1.9911766774240597E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    327946
   Stability unknown:                                          0
   Stable PS point:                                       327946
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 327946
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       327946
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.49494362    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.49240208    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.44808102    
 Time spent in Integrated_CT :    9.23538208    
 Time spent in Virtuals :    494.182953    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.70264816    
 Time spent in N1body_prefactor :   0.866144955    
 Time spent in Adding_alphas_pdf :    11.0772400    
 Time spent in Reweight_scale :    45.8004913    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.3675308    
 Time spent in Applying_cuts :    5.83741093    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    41.9195557    
 Time spent in Other_tasks :    26.1984863    
 Time spent in Total :    673.623230    
Time in seconds: 723



LOG file for integration channel /P0_ddx_emep/all_G1_17, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       29471
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          17
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,  53669
  with seed                   49
 Ranmar initialization seeds         124        2932
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.433128D+04 0.433128D+04  1.00
 muF1, muF1_reference: 0.433128D+04 0.433128D+04  1.00
 muF2, muF2_reference: 0.433128D+04 0.433128D+04  1.00
 QES,  QES_reference:  0.433128D+04 0.433128D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4822284834733757E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3265547479553980E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7663268967869005E-006           OLP:   -6.7663268967868962E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6623944999145217E-005           OLP:   -1.6623944999145518E-005
  FINITE:
           OLP:   -3.8220303319903620E-004
           BORN:    2.5350358962947734E-003
  MOMENTA (Exyzm): 
           1   2714.1864251010343        0.0000000000000000        0.0000000000000000        2714.1864251010343        0.0000000000000000     
           2   2714.1864251010343       -0.0000000000000000       -0.0000000000000000       -2714.1864251010343        0.0000000000000000     
           3   2714.1864251010343       -1538.0400963499555       -1329.3560983486245        1798.3472901544558        0.0000000000000000     
           4   2714.1864251010343        1538.0400963499555        1329.3560983486245       -1798.3472901544558        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7663268967869005E-006           OLP:   -6.7663268967868962E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6623944999145217E-005           OLP:   -1.6623944999145518E-005
ABS integral  = 0.8590E-06  +/-  0.2041E-08  (   0.238 %)
Integral      = 0.5988E-06  +/-  0.2201E-08  (   0.368 %)
Virtual       = 0.9073E-09  +/-  0.1029E-08  ( 113.362 %)
Virtual ratio = -.2851E+00  +/-  0.3958E-03  (   0.139 %)
ABS virtual   = 0.3745E-06  +/-  0.8985E-09  (   0.240 %)
Born          = 0.1841E-05  +/-  0.3329E-08  (   0.181 %)
V  2          = 0.9073E-09  +/-  0.1029E-08  ( 113.362 %)
B  2          = 0.1841E-05  +/-  0.3329E-08  (   0.181 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8590E-06  +/-  0.2041E-08  (   0.238 %)
accumulated results Integral      = 0.5988E-06  +/-  0.2201E-08  (   0.368 %)
accumulated results Virtual       = 0.9073E-09  +/-  0.1029E-08  ( 113.362 %)
accumulated results Virtual ratio = -.2851E+00  +/-  0.3958E-03  (   0.139 %)
accumulated results ABS virtual   = 0.3745E-06  +/-  0.8985E-09  (   0.240 %)
accumulated results Born          = 0.1841E-05  +/-  0.3329E-08  (   0.181 %)
accumulated results V  2          = 0.9073E-09  +/-  0.1029E-08  ( 113.362 %)
accumulated results B  2          = 0.1841E-05  +/-  0.3329E-08  (   0.181 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                                1                             2                3                   4
channel    1 :     1 T    96777    11397  0.1491E-06  0.9899E-07  0.6930E+00
channel    2 :     1 T    95984    11290  0.1471E-06  0.1011E-06  0.8624E+00
channel    3 :     2 T   184128    21153  0.2826E-06  0.1977E-06  0.6994E+00
channel    4 :     2 T   182981    21693  0.2802E-06  0.2010E-06  0.7100E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5896395674788198E-007  +/-   2.0409474641044292E-009
 Final result:   5.9880662382054250E-007  +/-   2.2006483137351357E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    328185
   Stability unknown:                                          0
   Stable PS point:                                       328185
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 328185
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       328185
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.49873197    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.46212626    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.46112823    
 Time spent in Integrated_CT :    9.26150513    
 Time spent in Virtuals :    493.912781    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.64751148    
 Time spent in N1body_prefactor :   0.866854072    
 Time spent in Adding_alphas_pdf :    10.2057505    
 Time spent in Reweight_scale :    44.2896881    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.3640537    
 Time spent in Applying_cuts :    5.87374926    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    42.0273590    
 Time spent in Other_tasks :    26.2805176    
 Time spent in Total :    671.151794    
Time in seconds: 716



LOG file for integration channel /P0_ddx_emep/all_G1_18, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       29499
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          18
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,  56826
  with seed                   49
 Ranmar initialization seeds         124        6089
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.423125D+04 0.423125D+04  1.00
 muF1, muF1_reference: 0.423125D+04 0.423125D+04  1.00
 muF2, muF2_reference: 0.423125D+04 0.423125D+04  1.00
 QES,  QES_reference:  0.423125D+04 0.423125D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4987295703807133E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3194730254378032E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8890643731026715E-006           OLP:   -6.8890643731026749E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7155012270321079E-005           OLP:   -1.7155012270321275E-005
  FINITE:
           OLP:   -3.7258963576908738E-004
           BORN:    2.5810200636321302E-003
  MOMENTA (Exyzm): 
           1   2742.8525974916588        0.0000000000000000        0.0000000000000000        2742.8525974916588        0.0000000000000000     
           2   2742.8525974916588       -0.0000000000000000       -0.0000000000000000       -2742.8525974916588        0.0000000000000000     
           3   2742.8525974916588       -1732.8965378166454       -1031.2085239816802        1859.2791454908936        0.0000000000000000     
           4   2742.8525974916588        1732.8965378166454        1031.2085239816802       -1859.2791454908936        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8890643731026715E-006           OLP:   -6.8890643731026749E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7155012270321075E-005           OLP:   -1.7155012270321275E-005
 Error #15 in genps_fks.f  -1.1026859283447266E-006           3
 Error #15 in genps_fks.f  -1.0728836059570312E-006           3
ABS integral  = 0.8552E-06  +/-  0.1870E-08  (   0.219 %)
Integral      = 0.5951E-06  +/-  0.2042E-08  (   0.343 %)
Virtual       = -.5593E-09  +/-  0.1028E-08  ( 183.805 %)
Virtual ratio = -.2855E+00  +/-  0.3965E-03  (   0.139 %)
ABS virtual   = 0.3743E-06  +/-  0.8981E-09  (   0.240 %)
Born          = 0.1838E-05  +/-  0.3331E-08  (   0.181 %)
V  2          = -.5593E-09  +/-  0.1028E-08  ( 183.805 %)
B  2          = 0.1838E-05  +/-  0.3331E-08  (   0.181 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8552E-06  +/-  0.1870E-08  (   0.219 %)
accumulated results Integral      = 0.5951E-06  +/-  0.2042E-08  (   0.343 %)
accumulated results Virtual       = -.5593E-09  +/-  0.1028E-08  ( 183.805 %)
accumulated results Virtual ratio = -.2855E+00  +/-  0.3965E-03  (   0.139 %)
accumulated results ABS virtual   = 0.3743E-06  +/-  0.8981E-09  (   0.240 %)
accumulated results Born          = 0.1838E-05  +/-  0.3331E-08  (   0.181 %)
accumulated results V  2          = -.5593E-09  +/-  0.1028E-08  ( 183.805 %)
accumulated results B  2          = 0.1838E-05  +/-  0.3331E-08  (   0.181 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                                1                             2                3                   4
channel    1 :     1 T    96551    11397  0.1471E-06  0.9712E-07  0.6968E+00
channel    2 :     1 T    96087    11290  0.1470E-06  0.1003E-06  0.8145E+00
channel    3 :     2 T   184172    21153  0.2817E-06  0.1965E-06  0.7388E+00
channel    4 :     2 T   183067    21693  0.2794E-06  0.2012E-06  0.8469E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5524667953814863E-007  +/-   1.8695981217796139E-009
 Final result:   5.9506696282223631E-007  +/-   2.0419051234954612E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    327712
   Stability unknown:                                          0
   Stable PS point:                                       327712
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 327712
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       327712
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.51717985    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.49503231    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.45515251    
 Time spent in Integrated_CT :    9.31311035    
 Time spent in Virtuals :    494.844238    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.67648125    
 Time spent in N1body_prefactor :   0.858999074    
 Time spent in Adding_alphas_pdf :    10.4968786    
 Time spent in Reweight_scale :    43.3911438    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.6136780    
 Time spent in Applying_cuts :    5.86808777    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    42.1102448    
 Time spent in Other_tasks :    26.5558472    
 Time spent in Total :    672.196045    
Time in seconds: 717



LOG file for integration channel /P0_ddx_emep/all_G1_19, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       29472
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          19
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,  59983
  with seed                   49
 Ranmar initialization seeds         124        9246
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.446776D+04 0.446776D+04  1.00
 muF1, muF1_reference: 0.446776D+04 0.446776D+04  1.00
 muF2, muF2_reference: 0.446776D+04 0.446776D+04  1.00
 QES,  QES_reference:  0.446776D+04 0.446776D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4604285622675667E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3267209989174589E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7691454718009048E-006           OLP:   -6.7691454718009065E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6635976944858513E-005           OLP:   -1.6635976944858479E-005
  FINITE:
           OLP:   -3.8185039189112067E-004
           BORN:    2.5360918885555511E-003
  MOMENTA (Exyzm): 
           1   2713.5177378790759        0.0000000000000000        0.0000000000000000        2713.5177378790759        0.0000000000000000     
           2   2713.5177378790759       -0.0000000000000000       -0.0000000000000000       -2713.5177378790759        0.0000000000000000     
           3   2713.5177378790759       -1630.7044314661287       -1211.6439024255862        1798.8609242228827        0.0000000000000000     
           4   2713.5177378790759        1630.7044314661287        1211.6439024255862       -1798.8609242228827        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7691454718009048E-006           OLP:   -6.7691454718009065E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6635976944858513E-005           OLP:   -1.6635976944858479E-005
ABS integral  = 0.8602E-06  +/-  0.2478E-08  (   0.288 %)
Integral      = 0.5973E-06  +/-  0.2613E-08  (   0.437 %)
Virtual       = 0.4644E-10  +/-  0.1032E-08  ( ******* %)
Virtual ratio = -.2854E+00  +/-  0.3962E-03  (   0.139 %)
ABS virtual   = 0.3746E-06  +/-  0.9020E-09  (   0.241 %)
Born          = 0.1837E-05  +/-  0.3331E-08  (   0.181 %)
V  2          = 0.4644E-10  +/-  0.1032E-08  ( ******* %)
B  2          = 0.1837E-05  +/-  0.3331E-08  (   0.181 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8602E-06  +/-  0.2478E-08  (   0.288 %)
accumulated results Integral      = 0.5973E-06  +/-  0.2613E-08  (   0.437 %)
accumulated results Virtual       = 0.4644E-10  +/-  0.1032E-08  ( ******* %)
accumulated results Virtual ratio = -.2854E+00  +/-  0.3962E-03  (   0.139 %)
accumulated results ABS virtual   = 0.3746E-06  +/-  0.9020E-09  (   0.241 %)
accumulated results Born          = 0.1837E-05  +/-  0.3331E-08  (   0.181 %)
accumulated results V  2          = 0.4644E-10  +/-  0.1032E-08  ( ******* %)
accumulated results B  2          = 0.1837E-05  +/-  0.3331E-08  (   0.181 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                                1                             2                3                   4
channel    1 :     1 T    96992    11397  0.1488E-06  0.9733E-07  0.6972E+00
channel    2 :     1 T    96253    11290  0.1470E-06  0.1009E-06  0.8569E+00
channel    3 :     2 T   183830    21153  0.2837E-06  0.1983E-06  0.4422E+00
channel    4 :     2 T   182798    21693  0.2807E-06  0.2008E-06  0.7849E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.6015367871984061E-007  +/-   2.4783276431066595E-009
 Final result:   5.9734291695802562E-007  +/-   2.6127140348428109E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    327955
   Stability unknown:                                          0
   Stable PS point:                                       327955
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 327955
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       327955
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.50841522    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.49441051    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.49562645    
 Time spent in Integrated_CT :    9.33361816    
 Time spent in Virtuals :    496.324432    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.72209549    
 Time spent in N1body_prefactor :   0.868534029    
 Time spent in Adding_alphas_pdf :    10.2228289    
 Time spent in Reweight_scale :    43.1776428    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.5424385    
 Time spent in Applying_cuts :    5.84067249    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    42.1143570    
 Time spent in Other_tasks :    26.5403442    
 Time spent in Total :    673.185425    
Time in seconds: 723



LOG file for integration channel /P0_ddx_emep/all_G1_20, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       29486
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          20
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,  63140
  with seed                   49
 Ranmar initialization seeds         124       12403
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.439295D+04 0.439295D+04  1.00
 muF1, muF1_reference: 0.439295D+04 0.439295D+04  1.00
 muF2, muF2_reference: 0.439295D+04 0.439295D+04  1.00
 QES,  QES_reference:  0.439295D+04 0.439295D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4722778275906260E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3294286561030875E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8322719720078700E-006           OLP:   -6.8322719720078725E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6907405992137647E-005           OLP:   -1.6907405992138372E-005
  FINITE:
           OLP:   -3.7422559479187569E-004
           BORN:    2.5597425259653557E-003
  MOMENTA (Exyzm): 
           1   2702.6545911783369        0.0000000000000000        0.0000000000000000        2702.6545911783369        0.0000000000000000     
           2   2702.6545911783369       -0.0000000000000000       -0.0000000000000000       -2702.6545911783369        0.0000000000000000     
           3   2702.6545911783369       -1389.8692191826538       -1444.2422846198069        1812.9450118804223        0.0000000000000000     
           4   2702.6545911783369        1389.8692191826538        1444.2422846198069       -1812.9450118804223        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8322719720078700E-006           OLP:   -6.8322719720078725E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6907405992137647E-005           OLP:   -1.6907405992138372E-005
ABS integral  = 0.8531E-06  +/-  0.1817E-08  (   0.213 %)
Integral      = 0.5980E-06  +/-  0.1990E-08  (   0.333 %)
Virtual       = 0.1213E-08  +/-  0.1026E-08  (  84.547 %)
Virtual ratio = -.2851E+00  +/-  0.3966E-03  (   0.139 %)
ABS virtual   = 0.3733E-06  +/-  0.8965E-09  (   0.240 %)
Born          = 0.1830E-05  +/-  0.3304E-08  (   0.181 %)
V  2          = 0.1213E-08  +/-  0.1026E-08  (  84.547 %)
B  2          = 0.1830E-05  +/-  0.3304E-08  (   0.181 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8531E-06  +/-  0.1817E-08  (   0.213 %)
accumulated results Integral      = 0.5980E-06  +/-  0.1990E-08  (   0.333 %)
accumulated results Virtual       = 0.1213E-08  +/-  0.1026E-08  (  84.547 %)
accumulated results Virtual ratio = -.2851E+00  +/-  0.3966E-03  (   0.139 %)
accumulated results ABS virtual   = 0.3733E-06  +/-  0.8965E-09  (   0.240 %)
accumulated results Born          = 0.1830E-05  +/-  0.3304E-08  (   0.181 %)
accumulated results V  2          = 0.1213E-08  +/-  0.1026E-08  (  84.547 %)
accumulated results B  2          = 0.1830E-05  +/-  0.3304E-08  (   0.181 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                   1                                               2
  2:  0                                1                            2                 3                   4
channel    1 :     1 T    97013    11397  0.1478E-06  0.9846E-07  0.7133E+00
channel    2 :     1 T    96427    11290  0.1465E-06  0.1017E-06  0.8618E+00
channel    3 :     2 T   183254    21153  0.2797E-06  0.1964E-06  0.7616E+00
channel    4 :     2 T   183181    21693  0.2791E-06  0.2015E-06  0.8387E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5313163061099059E-007  +/-   1.8165528629307644E-009
 Final result:   5.9795729723415636E-007  +/-   1.9902841303354547E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    327384
   Stability unknown:                                          0
   Stable PS point:                                       327384
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 327384
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       327384
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.52117372    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.53404808    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.48563576    
 Time spent in Integrated_CT :    9.42132568    
 Time spent in Virtuals :    495.734894    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.76347256    
 Time spent in N1body_prefactor :   0.874833643    
 Time spent in Adding_alphas_pdf :    10.3442621    
 Time spent in Reweight_scale :    43.4266319    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.7503834    
 Time spent in Applying_cuts :    5.87951851    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    42.2837715    
 Time spent in Other_tasks :    26.7052002    
 Time spent in Total :    673.725098    
Time in seconds: 725



LOG file for integration channel /P0_ddx_emep/all_G1_21, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       29500
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          21
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,  66297
  with seed                   49
 Ranmar initialization seeds         124       15560
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.421368D+04 0.421368D+04  1.00
 muF1, muF1_reference: 0.421368D+04 0.421368D+04  1.00
 muF2, muF2_reference: 0.421368D+04 0.421368D+04  1.00
 QES,  QES_reference:  0.421368D+04 0.421368D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5016751092575787E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3198281839389784E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8531652543288921E-006           OLP:   -6.8531652543288921E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6998209844456172E-005           OLP:   -1.6998209844456426E-005
  FINITE:
           OLP:   -3.7630787510551278E-004
           BORN:    2.5675702915290270E-003
  MOMENTA (Exyzm): 
           1   2741.4064210968813        0.0000000000000000        0.0000000000000000        2741.4064210968813        0.0000000000000000     
           2   2741.4064210968813       -0.0000000000000000       -0.0000000000000000       -2741.4064210968813        0.0000000000000000     
           3   2741.4064210968813       -1574.6840427307413       -1275.7921130756672        1846.0860801745685        0.0000000000000000     
           4   2741.4064210968813        1574.6840427307413        1275.7921130756672       -1846.0860801745685        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8531652543288921E-006           OLP:   -6.8531652543288921E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6998209844456172E-005           OLP:   -1.6998209844456426E-005
ABS integral  = 0.8587E-06  +/-  0.1874E-08  (   0.218 %)
Integral      = 0.6007E-06  +/-  0.2045E-08  (   0.340 %)
Virtual       = 0.3381E-08  +/-  0.1030E-08  (  30.475 %)
Virtual ratio = -.2843E+00  +/-  0.3967E-03  (   0.140 %)
ABS virtual   = 0.3756E-06  +/-  0.8998E-09  (   0.240 %)
Born          = 0.1838E-05  +/-  0.3323E-08  (   0.181 %)
V  2          = 0.3381E-08  +/-  0.1030E-08  (  30.475 %)
B  2          = 0.1838E-05  +/-  0.3323E-08  (   0.181 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8587E-06  +/-  0.1874E-08  (   0.218 %)
accumulated results Integral      = 0.6007E-06  +/-  0.2045E-08  (   0.340 %)
accumulated results Virtual       = 0.3381E-08  +/-  0.1030E-08  (  30.475 %)
accumulated results Virtual ratio = -.2843E+00  +/-  0.3967E-03  (   0.140 %)
accumulated results ABS virtual   = 0.3756E-06  +/-  0.8998E-09  (   0.240 %)
accumulated results Born          = 0.1838E-05  +/-  0.3323E-08  (   0.181 %)
accumulated results V  2          = 0.3381E-08  +/-  0.1030E-08  (  30.475 %)
accumulated results B  2          = 0.1838E-05  +/-  0.3323E-08  (   0.181 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                                1                             2                3                   4
channel    1 :     1 T    96549    11397  0.1478E-06  0.9831E-07  0.7068E+00
channel    2 :     1 T    96606    11290  0.1469E-06  0.1015E-06  0.8628E+00
channel    3 :     2 T   184023    21153  0.2835E-06  0.1996E-06  0.7254E+00
channel    4 :     2 T   182691    21693  0.2805E-06  0.2014E-06  0.8278E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5869238101472474E-007  +/-   1.8735112334477657E-009
 Final result:   6.0074159241595313E-007  +/-   2.0451043651136755E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    328552
   Stability unknown:                                          0
   Stable PS point:                                       328552
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 328552
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       328552
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.49476659    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.48102427    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.47227287    
 Time spent in Integrated_CT :    9.30001831    
 Time spent in Virtuals :    494.874298    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.68101311    
 Time spent in N1body_prefactor :   0.847349524    
 Time spent in Adding_alphas_pdf :    10.1813021    
 Time spent in Reweight_scale :    43.2676010    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.2648087    
 Time spent in Applying_cuts :    5.87761593    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    42.1818390    
 Time spent in Other_tasks :    26.3956909    
 Time spent in Total :    671.319580    
Time in seconds: 716



LOG file for integration channel /P0_ddx_emep/all_G1_22, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       29470
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          22
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,  69454
  with seed                   49
 Ranmar initialization seeds         124       18717
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.438415D+04 0.438415D+04  1.00
 muF1, muF1_reference: 0.438415D+04 0.438415D+04  1.00
 muF2, muF2_reference: 0.438415D+04 0.438415D+04  1.00
 QES,  QES_reference:  0.438415D+04 0.438415D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4736879385247409E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3195185228657977E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8401567816942240E-006           OLP:   -6.8401567816942240E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6941705082550104E-005           OLP:   -1.6941705082550128E-005
  FINITE:
           OLP:   -3.7782286774952560E-004
           BORN:    2.5626966066497892E-003
  MOMENTA (Exyzm): 
           1   2742.6672851661347        0.0000000000000000        0.0000000000000000        2742.6672851661347        0.0000000000000000     
           2   2742.6672851661347       -0.0000000000000000       -0.0000000000000000       -2742.6672851661347        0.0000000000000000     
           3   2742.6672851661347       -2001.2573772803883       -349.83817070184017        1842.4999325159788        0.0000000000000000     
           4   2742.6672851661347        2001.2573772803883        349.83817070184017       -1842.4999325159788        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8401567816942240E-006           OLP:   -6.8401567816942240E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6941705082550108E-005           OLP:   -1.6941705082550128E-005
ABS integral  = 0.8573E-06  +/-  0.1853E-08  (   0.216 %)
Integral      = 0.5983E-06  +/-  0.2026E-08  (   0.339 %)
Virtual       = -.1596E-10  +/-  0.1027E-08  ( ******* %)
Virtual ratio = -.2854E+00  +/-  0.3961E-03  (   0.139 %)
ABS virtual   = 0.3735E-06  +/-  0.8970E-09  (   0.240 %)
Born          = 0.1835E-05  +/-  0.3318E-08  (   0.181 %)
V  2          = -.1596E-10  +/-  0.1027E-08  ( ******* %)
B  2          = 0.1835E-05  +/-  0.3318E-08  (   0.181 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8573E-06  +/-  0.1853E-08  (   0.216 %)
accumulated results Integral      = 0.5983E-06  +/-  0.2026E-08  (   0.339 %)
accumulated results Virtual       = -.1596E-10  +/-  0.1027E-08  ( ******* %)
accumulated results Virtual ratio = -.2854E+00  +/-  0.3961E-03  (   0.139 %)
accumulated results ABS virtual   = 0.3735E-06  +/-  0.8970E-09  (   0.240 %)
accumulated results Born          = 0.1835E-05  +/-  0.3318E-08  (   0.181 %)
accumulated results V  2          = -.1596E-10  +/-  0.1027E-08  ( ******* %)
accumulated results B  2          = 0.1835E-05  +/-  0.3318E-08  (   0.181 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                   1                                               2
  2:  0                                1                             2                3                   4
channel    1 :     1 T    97280    11397  0.1478E-06  0.9795E-07  0.7271E+00
channel    2 :     1 T    95921    11290  0.1475E-06  0.1015E-06  0.8373E+00
channel    3 :     2 T   183382    21153  0.2812E-06  0.1965E-06  0.7360E+00
channel    4 :     2 T   183289    21693  0.2808E-06  0.2024E-06  0.8320E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5731729609802891E-007  +/-   1.8528263322183759E-009
 Final result:   5.9829491625454138E-007  +/-   2.0264249715090840E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    327729
   Stability unknown:                                          0
   Stable PS point:                                       327729
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 327729
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       327729
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.48453999    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.49517059    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.46916866    
 Time spent in Integrated_CT :    9.34085083    
 Time spent in Virtuals :    493.919983    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.65932655    
 Time spent in N1body_prefactor :   0.840234160    
 Time spent in Adding_alphas_pdf :    11.2200813    
 Time spent in Reweight_scale :    45.9660187    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.4741936    
 Time spent in Applying_cuts :    5.88131618    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    42.4643707    
 Time spent in Other_tasks :    26.3352051    
 Time spent in Total :    674.550354    
Time in seconds: 730



LOG file for integration channel /P0_ddx_emep/all_G1_23, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11347
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          23
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,  72611
  with seed                   49
 Ranmar initialization seeds         124       21874
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.437082D+04 0.437082D+04  1.00
 muF1, muF1_reference: 0.437082D+04 0.437082D+04  1.00
 muF2, muF2_reference: 0.437082D+04 0.437082D+04  1.00
 QES,  QES_reference:  0.437082D+04 0.437082D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4758302386474074E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3144420331276355E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8262094406556902E-006           OLP:   -6.8262094406556953E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6881361729968966E-005           OLP:   -1.6881361729969258E-005
  FINITE:
           OLP:   -3.8156310780646061E-004
           BORN:    2.5574711703488418E-003
  MOMENTA (Exyzm): 
           1   2763.4358698445189        0.0000000000000000        0.0000000000000000        2763.4358698445189        0.0000000000000000     
           2   2763.4358698445189       -0.0000000000000000       -0.0000000000000000       -2763.4358698445189        0.0000000000000000     
           3   2763.4358698445189       -1195.7885254592093       -1666.7329613933891        1851.6665046730866        0.0000000000000000     
           4   2763.4358698445189        1195.7885254592093        1666.7329613933891       -1851.6665046730866        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8262094406556902E-006           OLP:   -6.8262094406556953E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6881361729968966E-005           OLP:   -1.6881361729969258E-005
ABS integral  = 0.8520E-06  +/-  0.1811E-08  (   0.212 %)
Integral      = 0.5953E-06  +/-  0.1985E-08  (   0.333 %)
Virtual       = -.1970E-08  +/-  0.1019E-08  (  51.739 %)
Virtual ratio = -.2858E+00  +/-  0.3961E-03  (   0.139 %)
ABS virtual   = 0.3731E-06  +/-  0.8890E-09  (   0.238 %)
Born          = 0.1833E-05  +/-  0.3314E-08  (   0.181 %)
V  2          = -.1970E-08  +/-  0.1019E-08  (  51.739 %)
B  2          = 0.1833E-05  +/-  0.3314E-08  (   0.181 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8520E-06  +/-  0.1811E-08  (   0.212 %)
accumulated results Integral      = 0.5953E-06  +/-  0.1985E-08  (   0.333 %)
accumulated results Virtual       = -.1970E-08  +/-  0.1019E-08  (  51.739 %)
accumulated results Virtual ratio = -.2858E+00  +/-  0.3961E-03  (   0.139 %)
accumulated results ABS virtual   = 0.3731E-06  +/-  0.8890E-09  (   0.238 %)
accumulated results Born          = 0.1833E-05  +/-  0.3314E-08  (   0.181 %)
accumulated results V  2          = -.1970E-08  +/-  0.1019E-08  (  51.739 %)
accumulated results B  2          = 0.1833E-05  +/-  0.3314E-08  (   0.181 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                                1                             2                3                   4
channel    1 :     1 T    96872    11397  0.1481E-06  0.9801E-07  0.7061E+00
channel    2 :     1 T    95979    11290  0.1457E-06  0.1008E-06  0.8619E+00
channel    3 :     2 T   184450    21153  0.2799E-06  0.1956E-06  0.7511E+00
channel    4 :     2 T   182568    21693  0.2783E-06  0.2010E-06  0.8447E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5202450836200211E-007  +/-   1.8105477863446432E-009
 Final result:   5.9534504931705384E-007  +/-   1.9853578355108273E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    327608
   Stability unknown:                                          0
   Stable PS point:                                       327608
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 327608
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       327608
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.46910632    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.80796862    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.35392618    
 Time spent in Integrated_CT :    9.28912354    
 Time spent in Virtuals :    490.611420    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.50006390    
 Time spent in N1body_prefactor :   0.789103031    
 Time spent in Adding_alphas_pdf :    10.4086132    
 Time spent in Reweight_scale :    43.4382553    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.3968754    
 Time spent in Applying_cuts :    5.52462244    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.9824142    
 Time spent in Other_tasks :    24.3018188    
 Time spent in Total :    658.873291    
Time in seconds: 667



LOG file for integration channel /P0_ddx_emep/all_G1_24, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11357
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          24
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,  75768
  with seed                   49
 Ranmar initialization seeds         124       25031
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.424177D+04 0.424177D+04  1.00
 muF1, muF1_reference: 0.424177D+04 0.424177D+04  1.00
 muF2, muF2_reference: 0.424177D+04 0.424177D+04  1.00
 QES,  QES_reference:  0.424177D+04 0.424177D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4969723648225961E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3380085849601123E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6203366441238831E-006           OLP:   -6.6203366441238840E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6010267400115536E-005           OLP:   -1.6010267400115607E-005
  FINITE:
           OLP:   -3.9064358975370375E-004
           BORN:    2.4803399679639033E-003
  MOMENTA (Exyzm): 
           1   2668.5712038027118        0.0000000000000000        0.0000000000000000        2668.5712038027118        0.0000000000000000     
           2   2668.5712038027118       -0.0000000000000000       -0.0000000000000000       -2668.5712038027118        0.0000000000000000     
           3   2668.5712038027118       -1910.2603796598346       -719.07173430148782        1719.0443253725514        0.0000000000000000     
           4   2668.5712038027118        1910.2603796598346        719.07173430148782       -1719.0443253725514        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6203366441238831E-006           OLP:   -6.6203366441238840E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6010267400115533E-005           OLP:   -1.6010267400115607E-005
ABS integral  = 0.8591E-06  +/-  0.1902E-08  (   0.221 %)
Integral      = 0.5986E-06  +/-  0.2073E-08  (   0.346 %)
Virtual       = 0.2344E-08  +/-  0.1042E-08  (  44.436 %)
Virtual ratio = -.2847E+00  +/-  0.3962E-03  (   0.139 %)
ABS virtual   = 0.3760E-06  +/-  0.9124E-09  (   0.243 %)
Born          = 0.1839E-05  +/-  0.3319E-08  (   0.180 %)
V  2          = 0.2344E-08  +/-  0.1042E-08  (  44.436 %)
B  2          = 0.1839E-05  +/-  0.3319E-08  (   0.180 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8591E-06  +/-  0.1902E-08  (   0.221 %)
accumulated results Integral      = 0.5986E-06  +/-  0.2073E-08  (   0.346 %)
accumulated results Virtual       = 0.2344E-08  +/-  0.1042E-08  (  44.436 %)
accumulated results Virtual ratio = -.2847E+00  +/-  0.3962E-03  (   0.139 %)
accumulated results ABS virtual   = 0.3760E-06  +/-  0.9124E-09  (   0.243 %)
accumulated results Born          = 0.1839E-05  +/-  0.3319E-08  (   0.180 %)
accumulated results V  2          = 0.2344E-08  +/-  0.1042E-08  (  44.436 %)
accumulated results B  2          = 0.1839E-05  +/-  0.3319E-08  (   0.180 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                   1                                               2
  2:  0                                1                            2                 3                   4
channel    1 :     1 T    97231    11397  0.1497E-06  0.9837E-07  0.6955E+00
channel    2 :     1 T    96615    11290  0.1471E-06  0.1010E-06  0.8524E+00
channel    3 :     2 T   183762    21153  0.2823E-06  0.1973E-06  0.7157E+00
channel    4 :     2 T   182262    21693  0.2800E-06  0.2019E-06  0.8476E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5910225729065479E-007  +/-   1.9022333779016104E-009
 Final result:   5.9859339054209127E-007  +/-   2.0728624449939151E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    328463
   Stability unknown:                                          0
   Stable PS point:                                       328463
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 328463
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       328463
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.44793260    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.84192657    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.42396545    
 Time spent in Integrated_CT :    9.27838135    
 Time spent in Virtuals :    496.203247    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.44956398    
 Time spent in N1body_prefactor :   0.789591312    
 Time spent in Adding_alphas_pdf :    10.4342375    
 Time spent in Reweight_scale :    43.9151382    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.4938059    
 Time spent in Applying_cuts :    5.56118441    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.0015793    
 Time spent in Other_tasks :    24.4035034    
 Time spent in Total :    665.244141    
Time in seconds: 675



LOG file for integration channel /P0_ddx_emep/all_G1_25, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11244
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          25
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,  78925
  with seed                   49
 Ranmar initialization seeds         124       28188
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.457422D+04 0.457422D+04  1.00
 muF1, muF1_reference: 0.457422D+04 0.457422D+04  1.00
 muF2, muF2_reference: 0.457422D+04 0.457422D+04  1.00
 QES,  QES_reference:  0.457422D+04 0.457422D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4439705414364621E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3220563056714816E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7179916805141238E-006           OLP:   -6.7179916805141280E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6418760822072767E-005           OLP:   -1.6418760822073783E-005
  FINITE:
           OLP:   -3.8888294001975584E-004
           BORN:    2.5169268823237150E-003
  MOMENTA (Exyzm): 
           1   2732.3542956105225        0.0000000000000000        0.0000000000000000        2732.3542956105225        0.0000000000000000     
           2   2732.3542956105225       -0.0000000000000000       -0.0000000000000000       -2732.3542956105225        0.0000000000000000     
           3   2732.3542956105225       -1314.2890455911988       -1587.6286500300582        1793.8337634753073        0.0000000000000000     
           4   2732.3542956105225        1314.2890455911988        1587.6286500300582       -1793.8337634753073        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.7179916805141238E-006           OLP:   -6.7179916805141280E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6418760822072767E-005           OLP:   -1.6418760822073783E-005
ABS integral  = 0.8587E-06  +/-  0.1848E-08  (   0.215 %)
Integral      = 0.5986E-06  +/-  0.2023E-08  (   0.338 %)
Virtual       = -.9622E-10  +/-  0.1035E-08  ( ******* %)
Virtual ratio = -.2854E+00  +/-  0.3955E-03  (   0.139 %)
ABS virtual   = 0.3760E-06  +/-  0.9047E-09  (   0.241 %)
Born          = 0.1844E-05  +/-  0.3335E-08  (   0.181 %)
V  2          = -.9622E-10  +/-  0.1035E-08  ( ******* %)
B  2          = 0.1844E-05  +/-  0.3335E-08  (   0.181 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8587E-06  +/-  0.1848E-08  (   0.215 %)
accumulated results Integral      = 0.5986E-06  +/-  0.2023E-08  (   0.338 %)
accumulated results Virtual       = -.9622E-10  +/-  0.1035E-08  ( ******* %)
accumulated results Virtual ratio = -.2854E+00  +/-  0.3955E-03  (   0.139 %)
accumulated results ABS virtual   = 0.3760E-06  +/-  0.9047E-09  (   0.241 %)
accumulated results Born          = 0.1844E-05  +/-  0.3335E-08  (   0.181 %)
accumulated results V  2          = -.9622E-10  +/-  0.1035E-08  ( ******* %)
accumulated results B  2          = 0.1844E-05  +/-  0.3335E-08  (   0.181 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                                1                             2                3                   4
channel    1 :     1 T    96926    11397  0.1475E-06  0.9712E-07  0.7036E+00
channel    2 :     1 T    96150    11290  0.1459E-06  0.9880E-07  0.8688E+00
channel    3 :     2 T   184100    21153  0.2828E-06  0.1983E-06  0.7511E+00
channel    4 :     2 T   182692    21693  0.2825E-06  0.2044E-06  0.8374E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5873399317885576E-007  +/-   1.8478949547137932E-009
 Final result:   5.9862041598960746E-007  +/-   2.0228185615191268E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    329156
   Stability unknown:                                          0
   Stable PS point:                                       329156
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 329156
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       329156
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.47725463    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.81680107    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.36121655    
 Time spent in Integrated_CT :    9.33578491    
 Time spent in Virtuals :    496.683838    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.45037556    
 Time spent in N1body_prefactor :   0.783824325    
 Time spent in Adding_alphas_pdf :    10.4744854    
 Time spent in Reweight_scale :    43.5716553    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.5137062    
 Time spent in Applying_cuts :    5.60289001    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.0518417    
 Time spent in Other_tasks :    24.2116089    
 Time spent in Total :    665.335266    
Time in seconds: 702



LOG file for integration channel /P0_ddx_emep/all_G1_26, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11245
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          26
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,  82082
  with seed                   49
 Ranmar initialization seeds         124        1264
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.440337D+04 0.440337D+04  1.00
 muF1, muF1_reference: 0.440337D+04 0.440337D+04  1.00
 muF2, muF2_reference: 0.440337D+04 0.440337D+04  1.00
 QES,  QES_reference:  0.440337D+04 0.440337D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4706132802083311E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3383302415757690E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6894723470351957E-006           OLP:   -6.6894723470351940E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6298454652476795E-005           OLP:   -1.6298454652476934E-005
  FINITE:
           OLP:   -3.8431884628715638E-004
           BORN:    2.5062419811638531E-003
  MOMENTA (Exyzm): 
           1   2667.3033951265029        0.0000000000000000        0.0000000000000000        2667.3033951265029        0.0000000000000000     
           2   2667.3033951265029       -0.0000000000000000       -0.0000000000000000       -2667.3033951265029        0.0000000000000000     
           3   2667.3033951265029       -1936.5982437771372       -575.50286192508463        1741.5197672632703        0.0000000000000000     
           4   2667.3033951265029        1936.5982437771372        575.50286192508463       -1741.5197672632703        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.6894723470351957E-006           OLP:   -6.6894723470351940E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6298454652476798E-005           OLP:   -1.6298454652476934E-005
ABS integral  = 0.8539E-06  +/-  0.1840E-08  (   0.216 %)
Integral      = 0.5967E-06  +/-  0.2013E-08  (   0.337 %)
Virtual       = -.5777E-09  +/-  0.1038E-08  ( 179.714 %)
Virtual ratio = -.2858E+00  +/-  0.3968E-03  (   0.139 %)
ABS virtual   = 0.3750E-06  +/-  0.9092E-09  (   0.242 %)
Born          = 0.1839E-05  +/-  0.3349E-08  (   0.182 %)
V  2          = -.5777E-09  +/-  0.1038E-08  ( 179.714 %)
B  2          = 0.1839E-05  +/-  0.3349E-08  (   0.182 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8539E-06  +/-  0.1840E-08  (   0.216 %)
accumulated results Integral      = 0.5967E-06  +/-  0.2013E-08  (   0.337 %)
accumulated results Virtual       = -.5777E-09  +/-  0.1038E-08  ( 179.714 %)
accumulated results Virtual ratio = -.2858E+00  +/-  0.3968E-03  (   0.139 %)
accumulated results ABS virtual   = 0.3750E-06  +/-  0.9092E-09  (   0.242 %)
accumulated results Born          = 0.1839E-05  +/-  0.3349E-08  (   0.182 %)
accumulated results V  2          = -.5777E-09  +/-  0.1038E-08  ( 179.714 %)
accumulated results B  2          = 0.1839E-05  +/-  0.3349E-08  (   0.182 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                                1                             2                3                   4
channel    1 :     1 T    96754    11397  0.1463E-06  0.9745E-07  0.7232E+00
channel    2 :     1 T    95918    11290  0.1450E-06  0.9927E-07  0.8746E+00
channel    3 :     2 T   184584    21153  0.2826E-06  0.1984E-06  0.7373E+00
channel    4 :     2 T   182614    21693  0.2799E-06  0.2015E-06  0.8565E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5387298514033889E-007  +/-   1.8404929863130196E-009
 Final result:   5.9668119291526230E-007  +/-   2.0133962085462520E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    328043
   Stability unknown:                                          0
   Stable PS point:                                       328043
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 328043
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       328043
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.47675514    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.81252670    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.37610149    
 Time spent in Integrated_CT :    9.33248901    
 Time spent in Virtuals :    495.515717    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.49975872    
 Time spent in N1body_prefactor :   0.762747347    
 Time spent in Adding_alphas_pdf :    10.6171198    
 Time spent in Reweight_scale :    43.8689728    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.5491810    
 Time spent in Applying_cuts :    5.54044247    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.2252312    
 Time spent in Other_tasks :    24.2635498    
 Time spent in Total :    664.840637    
Time in seconds: 701



LOG file for integration channel /P0_ddx_emep/all_G1_27, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11228
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          27
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,  85239
  with seed                   49
 Ranmar initialization seeds         124        4421
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.402649D+04 0.402649D+04  1.00
 muF1, muF1_reference: 0.402649D+04 0.402649D+04  1.00
 muF2, muF2_reference: 0.402649D+04 0.402649D+04  1.00
 QES,  QES_reference:  0.402649D+04 0.402649D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5339919649639306E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3189176652293977E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8722382224435030E-006           OLP:   -6.8722382224435073E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7081370484018844E-005           OLP:   -1.7081370484018973E-005
  FINITE:
           OLP:   -3.7467069808858197E-004
           BORN:    2.5747160678943970E-003
  MOMENTA (Exyzm): 
           1   2745.1157926972701        0.0000000000000000        0.0000000000000000        2745.1157926972701        0.0000000000000000     
           2   2745.1157926972701       -0.0000000000000000       -0.0000000000000000       -2745.1157926972701        0.0000000000000000     
           3   2745.1157926972701       -2017.1567324891007       -159.34252378628216        1855.0874351370273        0.0000000000000000     
           4   2745.1157926972701        2017.1567324891007        159.34252378628216       -1855.0874351370273        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8722382224435030E-006           OLP:   -6.8722382224435073E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7081370484018844E-005           OLP:   -1.7081370484018973E-005
ABS integral  = 0.8584E-06  +/-  0.1848E-08  (   0.215 %)
Integral      = 0.6002E-06  +/-  0.2022E-08  (   0.337 %)
Virtual       = 0.1022E-08  +/-  0.1039E-08  ( 101.658 %)
Virtual ratio = -.2854E+00  +/-  0.3965E-03  (   0.139 %)
ABS virtual   = 0.3751E-06  +/-  0.9097E-09  (   0.243 %)
Born          = 0.1837E-05  +/-  0.3334E-08  (   0.181 %)
V  2          = 0.1022E-08  +/-  0.1039E-08  ( 101.658 %)
B  2          = 0.1837E-05  +/-  0.3334E-08  (   0.181 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8584E-06  +/-  0.1848E-08  (   0.215 %)
accumulated results Integral      = 0.6002E-06  +/-  0.2022E-08  (   0.337 %)
accumulated results Virtual       = 0.1022E-08  +/-  0.1039E-08  ( 101.658 %)
accumulated results Virtual ratio = -.2854E+00  +/-  0.3965E-03  (   0.139 %)
accumulated results ABS virtual   = 0.3751E-06  +/-  0.9097E-09  (   0.243 %)
accumulated results Born          = 0.1837E-05  +/-  0.3334E-08  (   0.181 %)
accumulated results V  2          = 0.1022E-08  +/-  0.1039E-08  ( 101.658 %)
accumulated results B  2          = 0.1837E-05  +/-  0.3334E-08  (   0.181 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                                1                             2                3                   4
channel    1 :     1 T    96662    11397  0.1482E-06  0.9774E-07  0.7123E+00
channel    2 :     1 T    96379    11290  0.1482E-06  0.1019E-06  0.8526E+00
channel    3 :     2 T   183678    21153  0.2815E-06  0.1982E-06  0.7586E+00
channel    4 :     2 T   183151    21693  0.2806E-06  0.2023E-06  0.8416E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5843093470124470E-007  +/-   1.8478627282213040E-009
 Final result:   6.0016253873673734E-007  +/-   2.0217429062270895E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    327859
   Stability unknown:                                          0
   Stable PS point:                                       327859
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 327859
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       327859
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.46003246    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.78099346    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.36478329    
 Time spent in Integrated_CT :    9.32052612    
 Time spent in Virtuals :    492.816772    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.42046547    
 Time spent in N1body_prefactor :   0.760027826    
 Time spent in Adding_alphas_pdf :    10.4692669    
 Time spent in Reweight_scale :    43.5904770    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.3433609    
 Time spent in Applying_cuts :    5.57255554    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.2187958    
 Time spent in Other_tasks :    24.1129761    
 Time spent in Total :    661.231018    
Time in seconds: 697



LOG file for integration channel /P0_ddx_emep/all_G1_28, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11236
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          28
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,  88396
  with seed                   49
 Ranmar initialization seeds         124        7578
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.450942D+04 0.450942D+04  1.00
 muF1, muF1_reference: 0.450942D+04 0.450942D+04  1.00
 muF2, muF2_reference: 0.450942D+04 0.450942D+04  1.00
 QES,  QES_reference:  0.450942D+04 0.450942D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4539331727037847E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3230406413482357E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8916645270660086E-006           OLP:   -6.8916645270660137E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7166371511347149E-005           OLP:   -1.7166371511346651E-005
  FINITE:
           OLP:   -3.7070773685895988E-004
           BORN:    2.5819942234286491E-003
  MOMENTA (Exyzm): 
           1   2728.3665568315359        0.0000000000000000        0.0000000000000000        2728.3665568315359        0.0000000000000000     
           2   2728.3665568315359       -0.0000000000000000       -0.0000000000000000       -2728.3665568315359        0.0000000000000000     
           3   2728.3665568315359       -1271.3158698709988       -1550.4896413558688        1850.3302136373027        0.0000000000000000     
           4   2728.3665568315359        1271.3158698709988        1550.4896413558688       -1850.3302136373027        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8916645270660086E-006           OLP:   -6.8916645270660137E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7166371511347149E-005           OLP:   -1.7166371511346651E-005
ABS integral  = 0.8568E-06  +/-  0.1849E-08  (   0.216 %)
Integral      = 0.5986E-06  +/-  0.2022E-08  (   0.338 %)
Virtual       = -.7483E-09  +/-  0.1038E-08  ( 138.769 %)
Virtual ratio = -.2859E+00  +/-  0.3953E-03  (   0.138 %)
ABS virtual   = 0.3746E-06  +/-  0.9098E-09  (   0.243 %)
Born          = 0.1841E-05  +/-  0.3358E-08  (   0.182 %)
V  2          = -.7483E-09  +/-  0.1038E-08  ( 138.769 %)
B  2          = 0.1841E-05  +/-  0.3358E-08  (   0.182 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8568E-06  +/-  0.1849E-08  (   0.216 %)
accumulated results Integral      = 0.5986E-06  +/-  0.2022E-08  (   0.338 %)
accumulated results Virtual       = -.7483E-09  +/-  0.1038E-08  ( 138.769 %)
accumulated results Virtual ratio = -.2859E+00  +/-  0.3953E-03  (   0.138 %)
accumulated results ABS virtual   = 0.3746E-06  +/-  0.9098E-09  (   0.243 %)
accumulated results Born          = 0.1841E-05  +/-  0.3358E-08  (   0.182 %)
accumulated results V  2          = -.7483E-09  +/-  0.1038E-08  ( 138.769 %)
accumulated results B  2          = 0.1841E-05  +/-  0.3358E-08  (   0.182 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                                1                             2                3                   4
channel    1 :     1 T    96751    11397  0.1485E-06  0.9854E-07  0.6841E+00
channel    2 :     1 T    95874    11290  0.1449E-06  0.9869E-07  0.8620E+00
channel    3 :     2 T   184753    21153  0.2839E-06  0.1997E-06  0.7593E+00
channel    4 :     2 T   182494    21693  0.2794E-06  0.2017E-06  0.8529E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5677844897331249E-007  +/-   1.8488000883924932E-009
 Final result:   5.9863749053997939E-007  +/-   2.0221553871416922E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    328276
   Stability unknown:                                          0
   Stable PS point:                                       328276
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 328276
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       328276
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.46979833    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.83866119    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.38617468    
 Time spent in Integrated_CT :    9.35565186    
 Time spent in Virtuals :    494.393066    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.43572998    
 Time spent in N1body_prefactor :   0.773668587    
 Time spent in Adding_alphas_pdf :    10.4700165    
 Time spent in Reweight_scale :    43.5509720    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.4531984    
 Time spent in Applying_cuts :    5.58203602    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.1229324    
 Time spent in Other_tasks :    24.4223633    
 Time spent in Total :    663.254272    
Time in seconds: 700



LOG file for integration channel /P0_ddx_emep/all_G1_29, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11229
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          29
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,  91553
  with seed                   49
 Ranmar initialization seeds         124       10735
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.258609D+04 0.258609D+04  1.00
 muF1, muF1_reference: 0.258609D+04 0.258609D+04  1.00
 muF2, muF2_reference: 0.258609D+04 0.258609D+04  1.00
 QES,  QES_reference:  0.258609D+04 0.258609D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.8642944851790270E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3250920261100888E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8226339510492572E-006           OLP:   -6.8226339510492606E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6865772101829271E-005           OLP:   -1.6865772101829454E-005
  FINITE:
           OLP:   -3.7715956362191451E-004
           BORN:    2.5561315965095346E-003
  MOMENTA (Exyzm): 
           1   2720.0781554237128        0.0000000000000000        0.0000000000000000        2720.0781554237128        0.0000000000000000     
           2   2720.0781554237128       -0.0000000000000000       -0.0000000000000000       -2720.0781554237128        0.0000000000000000     
           3   2720.0781554237128       -1999.5799935380312       -288.24637562962488        1821.3783374115603        0.0000000000000000     
           4   2720.0781554237128        1999.5799935380312        288.24637562962488       -1821.3783374115603        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8226339510492572E-006           OLP:   -6.8226339510492606E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6865772101829271E-005           OLP:   -1.6865772101829454E-005
ABS integral  = 0.8589E-06  +/-  0.2677E-08  (   0.312 %)
Integral      = 0.5983E-06  +/-  0.2801E-08  (   0.468 %)
Virtual       = 0.9761E-09  +/-  0.1030E-08  ( 105.521 %)
Virtual ratio = -.2850E+00  +/-  0.3964E-03  (   0.139 %)
ABS virtual   = 0.3742E-06  +/-  0.9004E-09  (   0.241 %)
Born          = 0.1834E-05  +/-  0.3313E-08  (   0.181 %)
V  2          = 0.9761E-09  +/-  0.1030E-08  ( 105.521 %)
B  2          = 0.1834E-05  +/-  0.3313E-08  (   0.181 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8589E-06  +/-  0.2677E-08  (   0.312 %)
accumulated results Integral      = 0.5983E-06  +/-  0.2801E-08  (   0.468 %)
accumulated results Virtual       = 0.9761E-09  +/-  0.1030E-08  ( 105.521 %)
accumulated results Virtual ratio = -.2850E+00  +/-  0.3964E-03  (   0.139 %)
accumulated results ABS virtual   = 0.3742E-06  +/-  0.9004E-09  (   0.241 %)
accumulated results Born          = 0.1834E-05  +/-  0.3313E-08  (   0.181 %)
accumulated results V  2          = 0.9761E-09  +/-  0.1030E-08  ( 105.521 %)
accumulated results B  2          = 0.1834E-05  +/-  0.3313E-08  (   0.181 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                                1                             2                3                   4
channel    1 :     1 T    96574    11397  0.1491E-06  0.9972E-07  0.7169E+00
channel    2 :     1 T    95972    11290  0.1456E-06  0.1002E-06  0.8406E+00
channel    3 :     2 T   184369    21153  0.2847E-06  0.1970E-06  0.3840E+00
channel    4 :     2 T   182959    21693  0.2796E-06  0.2014E-06  0.8438E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5892261261772918E-007  +/-   2.6773920664160790E-009
 Final result:   5.9834565399773881E-007  +/-   2.8011914504285701E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    328122
   Stability unknown:                                          0
   Stable PS point:                                       328122
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 328122
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       328122
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.46950126    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.81402636    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.37103653    
 Time spent in Integrated_CT :    9.31100464    
 Time spent in Virtuals :    493.993866    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.43703556    
 Time spent in N1body_prefactor :   0.770364761    
 Time spent in Adding_alphas_pdf :    10.4075851    
 Time spent in Reweight_scale :    43.9397507    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.5323915    
 Time spent in Applying_cuts :    5.62598848    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.0634766    
 Time spent in Other_tasks :    24.3999634    
 Time spent in Total :    663.135986    
Time in seconds: 701



LOG file for integration channel /P0_ddx_emep/all_G1_30, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11230
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          30
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,  94710
  with seed                   49
 Ranmar initialization seeds         124       13892
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.448021D+04 0.448021D+04  1.00
 muF1, muF1_reference: 0.448021D+04 0.448021D+04  1.00
 muF2, muF2_reference: 0.448021D+04 0.448021D+04  1.00
 QES,  QES_reference:  0.448021D+04 0.448021D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4584796344691326E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3199554044687989E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.9157351147331449E-006           OLP:   -6.9157351147331602E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7272318413168485E-005           OLP:   -1.7272318413167361E-005
  FINITE:
           OLP:   -3.6941609023172434E-004
           BORN:    2.5910123812433530E-003
  MOMENTA (Exyzm): 
           1   2740.8886094751101        0.0000000000000000        0.0000000000000000        2740.8886094751101        0.0000000000000000     
           2   2740.8886094751101       -0.0000000000000000       -0.0000000000000000       -2740.8886094751101        0.0000000000000000     
           3   2740.8886094751101       -1468.9268987357052       -1367.1336705932181        1866.9948212170859        0.0000000000000000     
           4   2740.8886094751101        1468.9268987357052        1367.1336705932181       -1866.9948212170859        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.9157351147331449E-006           OLP:   -6.9157351147331602E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7272318413168482E-005           OLP:   -1.7272318413167361E-005
ABS integral  = 0.8572E-06  +/-  0.1828E-08  (   0.213 %)
Integral      = 0.5991E-06  +/-  0.2003E-08  (   0.334 %)
Virtual       = 0.1259E-08  +/-  0.1029E-08  (  81.712 %)
Virtual ratio = -.2850E+00  +/-  0.3965E-03  (   0.139 %)
ABS virtual   = 0.3751E-06  +/-  0.8986E-09  (   0.240 %)
Born          = 0.1836E-05  +/-  0.3309E-08  (   0.180 %)
V  2          = 0.1259E-08  +/-  0.1029E-08  (  81.712 %)
B  2          = 0.1836E-05  +/-  0.3309E-08  (   0.180 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8572E-06  +/-  0.1828E-08  (   0.213 %)
accumulated results Integral      = 0.5991E-06  +/-  0.2003E-08  (   0.334 %)
accumulated results Virtual       = 0.1259E-08  +/-  0.1029E-08  (  81.712 %)
accumulated results Virtual ratio = -.2850E+00  +/-  0.3965E-03  (   0.139 %)
accumulated results ABS virtual   = 0.3751E-06  +/-  0.8986E-09  (   0.240 %)
accumulated results Born          = 0.1836E-05  +/-  0.3309E-08  (   0.180 %)
accumulated results V  2          = 0.1259E-08  +/-  0.1029E-08  (  81.712 %)
accumulated results B  2          = 0.1836E-05  +/-  0.3309E-08  (   0.180 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                                1                             2                3                   4
channel    1 :     1 T    97110    11397  0.1498E-06  0.9944E-07  0.7159E+00
channel    2 :     1 T    95526    11290  0.1448E-06  0.9920E-07  0.8434E+00
channel    3 :     2 T   184092    21153  0.2811E-06  0.1978E-06  0.7529E+00
channel    4 :     2 T   183141    21693  0.2815E-06  0.2026E-06  0.8494E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5720640206084117E-007  +/-   1.8276975396663172E-009
 Final result:   5.9911987252096485E-007  +/-   2.0029495973846086E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    327935
   Stability unknown:                                          0
   Stable PS point:                                       327935
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 327935
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       327935
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.47226226    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.77992535    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.36340141    
 Time spent in Integrated_CT :    9.31326294    
 Time spent in Virtuals :    496.020538    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.39204407    
 Time spent in N1body_prefactor :   0.770891488    
 Time spent in Adding_alphas_pdf :    10.6414814    
 Time spent in Reweight_scale :    44.0017166    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.5364952    
 Time spent in Applying_cuts :    5.54683590    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.0516663    
 Time spent in Other_tasks :    24.2101440    
 Time spent in Total :    665.100647    
Time in seconds: 702



LOG file for integration channel /P0_ddx_emep/all_G1_31, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11232
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      650396
 Maximum number of iterations is:           1
 Desired accuracy is:   3.0809096969124932E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          31
 Weight multiplier:   3.2258064516129031E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      650396           1
 imode is           -1
channel    1 :     1 F        0    11397  0.4579E-05  0.0000E+00  0.6980E+00
channel    2 :     1 F        0    11290  0.4551E-05  0.0000E+00  0.8477E+00
channel    3 :     2 F        0    21153  0.8721E-05  0.0000E+00  0.7658E+00
channel    4 :     2 F        0    21693  0.8658E-05  0.0000E+00  0.8621E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       650396  -->       559872
Using random seed offsets:     0 ,      2 ,  97867
  with seed                   49
 Ranmar initialization seeds         124       17049
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.457105D+04 0.457105D+04  1.00
 muF1, muF1_reference: 0.457105D+04 0.457105D+04  1.00
 muF2, muF2_reference: 0.457105D+04 0.457105D+04  1.00
 QES,  QES_reference:  0.457105D+04 0.457105D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4444540189592207E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1           1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16          -1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3169681176576101E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8783161097582145E-006           OLP:   -6.8783161097582094E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7107966750511415E-005           OLP:   -1.7107966750511117E-005
  FINITE:
           OLP:   -3.7488705896957777E-004
           BORN:    2.5769931766938172E-003
  MOMENTA (Exyzm): 
           1   2753.0781078313203        0.0000000000000000        0.0000000000000000        2753.0781078313203        0.0000000000000000     
           2   2753.0781078313203       -0.0000000000000000       -0.0000000000000000       -2753.0781078313203        0.0000000000000000     
           3   2753.0781078313203       -1079.9352969304687       -1715.8357781942977        1862.5483630048782        0.0000000000000000     
           4   2753.0781078313203        1079.9352969304687        1715.8357781942977       -1862.5483630048782        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -6.8783161097582145E-006           OLP:   -6.8783161097582094E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7107966750511418E-005           OLP:   -1.7107966750511117E-005
ABS integral  = 0.8584E-06  +/-  0.1880E-08  (   0.219 %)
Integral      = 0.5972E-06  +/-  0.2052E-08  (   0.344 %)
Virtual       = 0.2495E-08  +/-  0.1031E-08  (  41.343 %)
Virtual ratio = -.2848E+00  +/-  0.3971E-03  (   0.139 %)
ABS virtual   = 0.3749E-06  +/-  0.9015E-09  (   0.240 %)
Born          = 0.1831E-05  +/-  0.3293E-08  (   0.180 %)
V  2          = 0.2495E-08  +/-  0.1031E-08  (  41.343 %)
B  2          = 0.1831E-05  +/-  0.3293E-08  (   0.180 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.8584E-06  +/-  0.1880E-08  (   0.219 %)
accumulated results Integral      = 0.5972E-06  +/-  0.2052E-08  (   0.344 %)
accumulated results Virtual       = 0.2495E-08  +/-  0.1031E-08  (  41.343 %)
accumulated results Virtual ratio = -.2848E+00  +/-  0.3971E-03  (   0.139 %)
accumulated results ABS virtual   = 0.3749E-06  +/-  0.9015E-09  (   0.240 %)
accumulated results Born          = 0.1831E-05  +/-  0.3293E-08  (   0.180 %)
accumulated results V  2          = 0.2495E-08  +/-  0.1031E-08  (  41.343 %)
accumulated results B  2          = 0.1831E-05  +/-  0.3293E-08  (   0.180 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                   1                                               2
  2:  0                                1                             2                3                   4
channel    1 :     1 T    97303    11397  0.1493E-06  0.9851E-07  0.7048E+00
channel    2 :     1 T    96127    11290  0.1464E-06  0.9997E-07  0.8494E+00
channel    3 :     2 T   183837    21153  0.2828E-06  0.1978E-06  0.7425E+00
channel    4 :     2 T   182607    21693  0.2799E-06  0.2009E-06  0.8150E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   8.5843907666454583E-007  +/-   1.8795733766564050E-009
 Final result:   5.9715795882789057E-007  +/-   2.0523387245364368E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    328198
   Stability unknown:                                          0
   Stable PS point:                                       328198
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 328198
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       328198
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.48284984    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.79393959    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.39741421    
 Time spent in Integrated_CT :    9.43597412    
 Time spent in Virtuals :    495.292114    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.45311165    
 Time spent in N1body_prefactor :   0.761123180    
 Time spent in Adding_alphas_pdf :    10.3852520    
 Time spent in Reweight_scale :    43.3530197    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.0302210    
 Time spent in Applying_cuts :    5.61180258    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.9607620    
 Time spent in Other_tasks :    24.3377686    
 Time spent in Total :    664.295349    
Time in seconds: 702



LOG file for integration channel /P0_uxu_emep/all_G1_1, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11354
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           1
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,   3157
  with seed                   49
 Ranmar initialization seeds         124       12583
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.440859D+04 0.440859D+04  1.00
 muF1, muF1_reference: 0.440859D+04 0.440859D+04  1.00
 muF2, muF2_reference: 0.440859D+04 0.440859D+04  1.00
 QES,  QES_reference:  0.440859D+04 0.440859D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4697811129761413E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4697811129761413E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.2831485720973313E-006           OLP:   -3.2831485720973385E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.4871023410548960E-006           OLP:   -7.4871023410548248E-006
  FINITE:
           OLP:   -5.1645279731313780E-005
           BORN:    9.4618992982485335E-004
  MOMENTA (Exyzm): 
           1   2204.2957012908814        0.0000000000000000        0.0000000000000000        2204.2957012908814        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2204.2957012908814       -0.0000000000000000       -0.0000000000000000       -2204.2957012908814        0.0000000000000000     
           3   2204.2957012908814       -1061.0965254962721       -1720.0277833516070        880.05575210196537        0.0000000000000000     
           4   2204.2957012908814        1061.0965254962721        1720.0277833516070       -880.05575210196537        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.2831485720973313E-006           OLP:   -3.2831485720973385E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.4871023410548968E-006           OLP:   -7.4871023410548248E-006
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9089E-06  +/-  0.1810E-08  (   0.199 %)
Integral      = 0.5189E-06  +/-  0.2066E-08  (   0.398 %)
Virtual       = 0.1919E-08  +/-  0.1082E-08  (  56.381 %)
Virtual ratio = -.1937E+00  +/-  0.4292E-03  (   0.222 %)
ABS virtual   = 0.4833E-06  +/-  0.8683E-09  (   0.180 %)
Born          = 0.1776E-05  +/-  0.2672E-08  (   0.150 %)
V  2          = 0.1919E-08  +/-  0.1082E-08  (  56.381 %)
B  2          = 0.1776E-05  +/-  0.2672E-08  (   0.150 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9089E-06  +/-  0.1810E-08  (   0.199 %)
accumulated results Integral      = 0.5189E-06  +/-  0.2066E-08  (   0.398 %)
accumulated results Virtual       = 0.1919E-08  +/-  0.1082E-08  (  56.381 %)
accumulated results Virtual ratio = -.1937E+00  +/-  0.4292E-03  (   0.222 %)
accumulated results ABS virtual   = 0.4833E-06  +/-  0.8683E-09  (   0.180 %)
accumulated results Born          = 0.1776E-05  +/-  0.2672E-08  (   0.150 %)
accumulated results V  2          = 0.1919E-08  +/-  0.1082E-08  (  56.381 %)
accumulated results B  2          = 0.1776E-05  +/-  0.2672E-08  (   0.150 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                            1                          2                       3                   4
channel    1 :     1 T   208963    23899  0.3361E-06  0.1852E-06  0.8518E+00
channel    2 :     1 T   205296    24412  0.3353E-06  0.2027E-06  0.9742E+00
channel    3 :     2 T    71914     8586  0.1172E-06  0.6189E-07  0.9899E+00
channel    4 :     2 T    73694     8635  0.1203E-06  0.6915E-07  0.9328E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0893813843620742E-007  +/-   1.8095035584256538E-009
 Final result:   5.1894051390853540E-007  +/-   2.0661413084759275E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376593
   Stability unknown:                                          0
   Stable PS point:                                       376593
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376593
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376593
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.49536157    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.63007307    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.34066296    
 Time spent in Integrated_CT :    9.57940674    
 Time spent in Virtuals :    544.134338    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.38322830    
 Time spent in N1body_prefactor :   0.716430068    
 Time spent in Adding_alphas_pdf :    10.4253407    
 Time spent in Reweight_scale :    43.6320610    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.8403072    
 Time spent in Applying_cuts :    5.69198561    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    39.1368484    
 Time spent in Other_tasks :    24.0689087    
 Time spent in Total :    713.075012    
Time in seconds: 727



LOG file for integration channel /P0_uxu_emep/all_G1_2, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11322
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           2
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,   6314
  with seed                   49
 Ranmar initialization seeds         124       15740
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.434107D+04 0.434107D+04  1.00
 muF1, muF1_reference: 0.434107D+04 0.434107D+04  1.00
 muF2, muF2_reference: 0.434107D+04 0.434107D+04  1.00
 QES,  QES_reference:  0.434107D+04 0.434107D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4806373103824583E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4806373103824583E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9908580670234126E-006           OLP:   -3.9908580670234177E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1344336704322002E-006           OLP:   -8.1344336704321494E-006
  FINITE:
           OLP:   -9.3556269077021661E-005
           BORN:    1.1501488986730775E-003
  MOMENTA (Exyzm): 
           1   2170.5364717158241        0.0000000000000000        0.0000000000000000        2170.5364717158241        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2170.5364717158241       -0.0000000000000000       -0.0000000000000000       -2170.5364717158241        0.0000000000000000     
           3   2170.5364717158241       -1574.4161511487428       -1361.4699157779528        615.50144311945576        0.0000000000000000     
           4   2170.5364717158241        1574.4161511487428        1361.4699157779528       -615.50144311945576        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9908580670234126E-006           OLP:   -3.9908580670234177E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1344336704322019E-006           OLP:   -8.1344336704321494E-006
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9089E-06  +/-  0.2025E-08  (   0.223 %)
Integral      = 0.5162E-06  +/-  0.2258E-08  (   0.437 %)
Virtual       = 0.2083E-08  +/-  0.1085E-08  (  52.068 %)
Virtual ratio = -.1940E+00  +/-  0.4299E-03  (   0.222 %)
ABS virtual   = 0.4832E-06  +/-  0.8716E-09  (   0.180 %)
Born          = 0.1776E-05  +/-  0.2682E-08  (   0.151 %)
V  2          = 0.2083E-08  +/-  0.1085E-08  (  52.068 %)
B  2          = 0.1776E-05  +/-  0.2682E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9089E-06  +/-  0.2025E-08  (   0.223 %)
accumulated results Integral      = 0.5162E-06  +/-  0.2258E-08  (   0.437 %)
accumulated results Virtual       = 0.2083E-08  +/-  0.1085E-08  (  52.068 %)
accumulated results Virtual ratio = -.1940E+00  +/-  0.4299E-03  (   0.222 %)
accumulated results ABS virtual   = 0.4832E-06  +/-  0.8716E-09  (   0.180 %)
accumulated results Born          = 0.1776E-05  +/-  0.2682E-08  (   0.151 %)
accumulated results V  2          = 0.2083E-08  +/-  0.1085E-08  (  52.068 %)
accumulated results B  2          = 0.1776E-05  +/-  0.2682E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                            1                           2                      3                   4
channel    1 :     1 T   210060    23899  0.3357E-06  0.1865E-06  0.8739E+00
channel    2 :     1 T   205144    24412  0.3359E-06  0.2002E-06  0.9749E+00
channel    3 :     2 T    71377     8586  0.1161E-06  0.6297E-07  0.1000E+01
channel    4 :     2 T    73292     8635  0.1212E-06  0.6650E-07  0.6119E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0893234246884396E-007  +/-   2.0245722861156279E-009
 Final result:   5.1617371669970615E-007  +/-   2.2580137884703216E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376424
   Stability unknown:                                          0
   Stable PS point:                                       376424
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376424
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376424
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.54799163    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.87428331    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.51739693    
 Time spent in Integrated_CT :    9.94726562    
 Time spent in Virtuals :    570.649902    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.62291718    
 Time spent in N1body_prefactor :   0.791186810    
 Time spent in Adding_alphas_pdf :    10.8130798    
 Time spent in Reweight_scale :    45.0561256    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.8021336    
 Time spent in Applying_cuts :    5.68417549    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    40.3194656    
 Time spent in Other_tasks :    24.6452026    
 Time spent in Total :    744.271179    
Time in seconds: 817



LOG file for integration channel /P0_uxu_emep/all_G1_3, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11321
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           3
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,   9471
  with seed                   49
 Ranmar initialization seeds         124       18897
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.440067D+04 0.440067D+04  1.00
 muF1, muF1_reference: 0.440067D+04 0.440067D+04  1.00
 muF2, muF2_reference: 0.440067D+04 0.440067D+04  1.00
 QES,  QES_reference:  0.440067D+04 0.440067D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4710451989601148E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4710451989601148E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
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  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.2258181228688768E-006           OLP:   -4.2258181228688734E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.3344961769312628E-006           OLP:   -8.3344961769311595E-006
  FINITE:
           OLP:   -1.1021337496678157E-004
           BORN:    1.2178634214459667E-003
  MOMENTA (Exyzm): 
           1   2200.3330400589143        0.0000000000000000        0.0000000000000000        2200.3330400589143        0.0000000000000000     
           2   2200.3330400589143       -0.0000000000000000       -0.0000000000000000       -2200.3330400589143        0.0000000000000000     
           3   2200.3330400589143       -1888.3923267062744       -985.86384290928640        550.91958656041743        0.0000000000000000     
           4   2200.3330400589143        1888.3923267062744        985.86384290928640       -550.91958656041743        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.2258181228688768E-006           OLP:   -4.2258181228688734E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.3344961769312628E-006           OLP:   -8.3344961769311595E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9070E-06  +/-  0.1863E-08  (   0.205 %)
Integral      = 0.5140E-06  +/-  0.2114E-08  (   0.411 %)
Virtual       = -.6211E-09  +/-  0.1085E-08  ( 174.683 %)
Virtual ratio = -.1947E+00  +/-  0.4293E-03  (   0.220 %)
ABS virtual   = 0.4830E-06  +/-  0.8721E-09  (   0.181 %)
Born          = 0.1777E-05  +/-  0.2686E-08  (   0.151 %)
V  2          = -.6211E-09  +/-  0.1085E-08  ( 174.683 %)
B  2          = 0.1777E-05  +/-  0.2686E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9070E-06  +/-  0.1863E-08  (   0.205 %)
accumulated results Integral      = 0.5140E-06  +/-  0.2114E-08  (   0.411 %)
accumulated results Virtual       = -.6211E-09  +/-  0.1085E-08  ( 174.683 %)
accumulated results Virtual ratio = -.1947E+00  +/-  0.4293E-03  (   0.220 %)
accumulated results ABS virtual   = 0.4830E-06  +/-  0.8721E-09  (   0.181 %)
accumulated results Born          = 0.1777E-05  +/-  0.2686E-08  (   0.151 %)
accumulated results V  2          = -.6211E-09  +/-  0.1085E-08  ( 174.683 %)
accumulated results B  2          = 0.1777E-05  +/-  0.2686E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                            1                           2                      3                   4
channel    1 :     1 T   209112    23899  0.3347E-06  0.1838E-06  0.8335E+00
channel    2 :     1 T   205099    24412  0.3355E-06  0.1998E-06  0.9436E+00
channel    3 :     2 T    71933     8586  0.1174E-06  0.6240E-07  0.9696E+00
channel    4 :     2 T    73724     8635  0.1193E-06  0.6811E-07  0.9475E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0698255892141133E-007  +/-   1.8629394407805534E-009
 Final result:   5.1404556503300917E-007  +/-   2.1137333502371991E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376782
   Stability unknown:                                          0
   Stable PS point:                                       376782
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376782
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376782
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.54945946    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.90269375    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.60996675    
 Time spent in Integrated_CT :    9.91729736    
 Time spent in Virtuals :    570.623901    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.71202469    
 Time spent in N1body_prefactor :   0.775724888    
 Time spent in Adding_alphas_pdf :    10.8205471    
 Time spent in Reweight_scale :    45.2271652    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.0876131    
 Time spent in Applying_cuts :    5.77069902    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    40.4939461    
 Time spent in Other_tasks :    25.0388794    
 Time spent in Total :    745.529907    
Time in seconds: 817



LOG file for integration channel /P0_uxu_emep/all_G1_4, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11355
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           4
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,  12628
  with seed                   49
 Ranmar initialization seeds         124       22054
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.424988D+04 0.424988D+04  1.00
 muF1, muF1_reference: 0.424988D+04 0.424988D+04  1.00
 muF2, muF2_reference: 0.424988D+04 0.424988D+04  1.00
 QES,  QES_reference:  0.424988D+04 0.424988D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4956217501594258E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4956217501594258E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7911472660177590E-006           OLP:   -3.7911472660177565E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9574102717871891E-006           OLP:   -7.9574102717872146E-006
  FINITE:
           OLP:   -7.8852290746332822E-005
           BORN:    1.0925930663252007E-003
  MOMENTA (Exyzm): 
           1   2124.9376383984977        0.0000000000000000        0.0000000000000000        2124.9376383984977        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2124.9376383984977       -0.0000000000000000       -0.0000000000000000       -2124.9376383984977        0.0000000000000000     
           3   2124.9376383984977       -1987.4370019292064       -348.79497916519125        666.18030063518472        0.0000000000000000     
           4   2124.9376383984977        1987.4370019292064        348.79497916519125       -666.18030063518472        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7911472660177590E-006           OLP:   -3.7911472660177565E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9574102717871891E-006           OLP:   -7.9574102717872146E-006
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9066E-06  +/-  0.1778E-08  (   0.196 %)
Integral      = 0.5157E-06  +/-  0.2038E-08  (   0.395 %)
Virtual       = -.5702E-10  +/-  0.1083E-08  ( ******* %)
Virtual ratio = -.1946E+00  +/-  0.4294E-03  (   0.221 %)
ABS virtual   = 0.4836E-06  +/-  0.8696E-09  (   0.180 %)
Born          = 0.1779E-05  +/-  0.2683E-08  (   0.151 %)
V  2          = -.5702E-10  +/-  0.1083E-08  ( ******* %)
B  2          = 0.1779E-05  +/-  0.2683E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9066E-06  +/-  0.1778E-08  (   0.196 %)
accumulated results Integral      = 0.5157E-06  +/-  0.2038E-08  (   0.395 %)
accumulated results Virtual       = -.5702E-10  +/-  0.1083E-08  ( ******* %)
accumulated results Virtual ratio = -.1946E+00  +/-  0.4294E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4836E-06  +/-  0.8696E-09  (   0.180 %)
accumulated results Born          = 0.1779E-05  +/-  0.2683E-08  (   0.151 %)
accumulated results V  2          = -.5702E-10  +/-  0.1083E-08  ( ******* %)
accumulated results B  2          = 0.1779E-05  +/-  0.2683E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                           1                                                       2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   209843    23899  0.3346E-06  0.1876E-06  0.8869E+00
channel    2 :     1 T   204937    24412  0.3359E-06  0.1989E-06  0.9797E+00
channel    3 :     2 T    71496     8586  0.1165E-06  0.6129E-07  0.9814E+00
channel    4 :     2 T    73588     8635  0.1196E-06  0.6786E-07  0.9342E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0658852646128495E-007  +/-   1.7780684137970231E-009
 Final result:   5.1567223047631950E-007  +/-   2.0382797795590449E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376752
   Stability unknown:                                          0
   Stable PS point:                                       376752
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376752
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376752
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.55060577    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.83768082    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.53679562    
 Time spent in Integrated_CT :    9.84582520    
 Time spent in Virtuals :    570.039917    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.68566322    
 Time spent in N1body_prefactor :   0.770796418    
 Time spent in Adding_alphas_pdf :    10.7876892    
 Time spent in Reweight_scale :    45.3157616    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.0692482    
 Time spent in Applying_cuts :    5.63946724    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    40.8101997    
 Time spent in Other_tasks :    24.6499023    
 Time spent in Total :    744.539612    
Time in seconds: 805



LOG file for integration channel /P0_uxu_emep/all_G1_5, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11353
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           5
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,  15785
  with seed                   49
 Ranmar initialization seeds         124       25211
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.436520D+04 0.436520D+04  1.00
 muF1, muF1_reference: 0.436520D+04 0.436520D+04  1.00
 muF2, muF2_reference: 0.436520D+04 0.436520D+04  1.00
 QES,  QES_reference:  0.436520D+04 0.436520D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4767357565014708E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4767357565014708E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8911625795535843E-006           OLP:   -3.8911625795535835E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0467984953399109E-006           OLP:   -8.0467984953398600E-006
  FINITE:
           OLP:   -8.7864842897038053E-005
           BORN:    1.1214170687782546E-003
  MOMENTA (Exyzm): 
           1   2182.5982786853783        0.0000000000000000        0.0000000000000000        2182.5982786853783        0.0000000000000000     
           2   2182.5982786853783       -0.0000000000000000       -0.0000000000000000       -2182.5982786853783        0.0000000000000000     
           3   2182.5982786853783       -2082.4591694305550       -56.716835249909622        651.06240436244991        0.0000000000000000     
           4   2182.5982786853783        2082.4591694305550        56.716835249909622       -651.06240436244991        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8911625795535843E-006           OLP:   -3.8911625795535835E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0467984953399092E-006           OLP:   -8.0467984953398600E-006
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 Error #15 in genps_fks.f  -1.1597993534451234E-006           4
ABS integral  = 0.9078E-06  +/-  0.1825E-08  (   0.201 %)
Integral      = 0.5114E-06  +/-  0.2082E-08  (   0.407 %)
Virtual       = -.1047E-08  +/-  0.1082E-08  ( 103.292 %)
Virtual ratio = -.1950E+00  +/-  0.4291E-03  (   0.220 %)
ABS virtual   = 0.4823E-06  +/-  0.8688E-09  (   0.180 %)
Born          = 0.1776E-05  +/-  0.2680E-08  (   0.151 %)
V  2          = -.1047E-08  +/-  0.1082E-08  ( 103.292 %)
B  2          = 0.1776E-05  +/-  0.2680E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9078E-06  +/-  0.1825E-08  (   0.201 %)
accumulated results Integral      = 0.5114E-06  +/-  0.2082E-08  (   0.407 %)
accumulated results Virtual       = -.1047E-08  +/-  0.1082E-08  ( 103.292 %)
accumulated results Virtual ratio = -.1950E+00  +/-  0.4291E-03  (   0.220 %)
accumulated results ABS virtual   = 0.4823E-06  +/-  0.8688E-09  (   0.180 %)
accumulated results Born          = 0.1776E-05  +/-  0.2680E-08  (   0.151 %)
accumulated results V  2          = -.1047E-08  +/-  0.1082E-08  ( 103.292 %)
accumulated results B  2          = 0.1776E-05  +/-  0.2680E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                            1                          2                       3                   4
channel    1 :     1 T   209465    23899  0.3351E-06  0.1846E-06  0.8665E+00
channel    2 :     1 T   204593    24412  0.3348E-06  0.1971E-06  0.9367E+00
channel    3 :     2 T    72348     8586  0.1179E-06  0.6164E-07  0.9972E+00
channel    4 :     2 T    73472     8635  0.1200E-06  0.6809E-07  0.9410E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0776750136382021E-007  +/-   1.8247320284397845E-009
 Final result:   5.1143863198433417E-007  +/-   2.0818961408389785E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376736
   Stability unknown:                                          0
   Stable PS point:                                       376736
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376736
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376736
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.54972303    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.88674831    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.60406446    
 Time spent in Integrated_CT :    9.95214844    
 Time spent in Virtuals :    569.804871    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.64647293    
 Time spent in N1body_prefactor :   0.766280949    
 Time spent in Adding_alphas_pdf :    10.8265934    
 Time spent in Reweight_scale :    45.1851120    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.9543104    
 Time spent in Applying_cuts :    5.62387085    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    40.5131989    
 Time spent in Other_tasks :    24.6719360    
 Time spent in Total :    743.985291    
Time in seconds: 805



LOG file for integration channel /P0_uxu_emep/all_G1_6, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11361
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           6
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,  18942
  with seed                   49
 Ranmar initialization seeds         124       28368
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.434942D+04 0.434942D+04  1.00
 muF1, muF1_reference: 0.434942D+04 0.434942D+04  1.00
 muF2, muF2_reference: 0.434942D+04 0.434942D+04  1.00
 QES,  QES_reference:  0.434942D+04 0.434942D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4792841200744406E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4792841200744406E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.4875380070692110E-006           OLP:   -3.4875380070692068E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.6785610145530641E-006           OLP:   -7.6785610145530167E-006
  FINITE:
           OLP:   -6.2641019398601783E-005
           BORN:    1.0050941252598600E-003
  MOMENTA (Exyzm): 
           1   2174.7109755832867        0.0000000000000000        0.0000000000000000        2174.7109755832867        0.0000000000000000     
           2   2174.7109755832867       -0.0000000000000000       -0.0000000000000000       -2174.7109755832867        0.0000000000000000     
           3   2174.7109755832867       -1686.7242747958555       -1123.3279960887853        788.96340937964885        0.0000000000000000     
           4   2174.7109755832867        1686.7242747958555        1123.3279960887853       -788.96340937964885        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.4875380070692110E-006           OLP:   -3.4875380070692068E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.6785610145530641E-006           OLP:   -7.6785610145530167E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9050E-06  +/-  0.1935E-08  (   0.214 %)
Integral      = 0.5143E-06  +/-  0.2176E-08  (   0.423 %)
Virtual       = -.1544E-08  +/-  0.1081E-08  (  69.975 %)
Virtual ratio = -.1950E+00  +/-  0.4295E-03  (   0.220 %)
ABS virtual   = 0.4820E-06  +/-  0.8677E-09  (   0.180 %)
Born          = 0.1774E-05  +/-  0.2683E-08  (   0.151 %)
V  2          = -.1544E-08  +/-  0.1081E-08  (  69.975 %)
B  2          = 0.1774E-05  +/-  0.2683E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9050E-06  +/-  0.1935E-08  (   0.214 %)
accumulated results Integral      = 0.5143E-06  +/-  0.2176E-08  (   0.423 %)
accumulated results Virtual       = -.1544E-08  +/-  0.1081E-08  (  69.975 %)
accumulated results Virtual ratio = -.1950E+00  +/-  0.4295E-03  (   0.220 %)
accumulated results ABS virtual   = 0.4820E-06  +/-  0.8677E-09  (   0.180 %)
accumulated results Born          = 0.1774E-05  +/-  0.2683E-08  (   0.151 %)
accumulated results V  2          = -.1544E-08  +/-  0.1081E-08  (  69.975 %)
accumulated results B  2          = 0.1774E-05  +/-  0.2683E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                      3                    4
channel    1 :     1 T   209682    23899  0.3359E-06  0.1832E-06  0.7643E+00
channel    2 :     1 T   204812    24412  0.3348E-06  0.2007E-06  0.9860E+00
channel    3 :     2 T    71703     8586  0.1160E-06  0.6108E-07  0.8340E+00
channel    4 :     2 T    73672     8635  0.1183E-06  0.6925E-07  0.9906E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0498930313547177E-007  +/-   1.9354883215096934E-009
 Final result:   5.1427237471689708E-007  +/-   2.1763668799734282E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376615
   Stability unknown:                                          0
   Stable PS point:                                       376615
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376615
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376615
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.53056407    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.84095383    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.49045992    
 Time spent in Integrated_CT :    9.76684570    
 Time spent in Virtuals :    577.850708    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.66437817    
 Time spent in N1body_prefactor :   0.795588374    
 Time spent in Adding_alphas_pdf :    10.7768860    
 Time spent in Reweight_scale :    44.9948006    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.8853064    
 Time spent in Applying_cuts :    5.64183903    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    40.1913033    
 Time spent in Other_tasks :    24.8928223    
 Time spent in Total :    751.322510    
Time in seconds: 799



LOG file for integration channel /P0_uxu_emep/all_G1_7, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11348
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           7
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,  22099
  with seed                   49
 Ranmar initialization seeds         124        1444
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.421213D+04 0.421213D+04  1.00
 muF1, muF1_reference: 0.421213D+04 0.421213D+04  1.00
 muF2, muF2_reference: 0.421213D+04 0.421213D+04  1.00
 QES,  QES_reference:  0.421213D+04 0.421213D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5019347277658618E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5019347277658618E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9113748587493900E-006           OLP:   -3.9113748587493950E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0647069307485209E-006           OLP:   -8.0647069307485107E-006
  FINITE:
           OLP:   -8.5320683513292382E-005
           BORN:    1.1272421646013359E-003
  MOMENTA (Exyzm): 
           1   2106.0664646462642        0.0000000000000000        0.0000000000000000        2106.0664646462642        0.0000000000000000     
           2   2106.0664646462642       -0.0000000000000000       -0.0000000000000000       -2106.0664646462642        0.0000000000000000     
           3   2106.0664646462642       -1923.5475217508210       -590.54812346817255        621.87924787864495        0.0000000000000000     
           4   2106.0664646462642        1923.5475217508210        590.54812346817255       -621.87924787864495        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9113748587493900E-006           OLP:   -3.9113748587493950E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0647069307485209E-006           OLP:   -8.0647069307485107E-006
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9081E-06  +/-  0.1822E-08  (   0.201 %)
Integral      = 0.5121E-06  +/-  0.2080E-08  (   0.406 %)
Virtual       = -.1166E-09  +/-  0.1082E-08  ( 927.329 %)
Virtual ratio = -.1949E+00  +/-  0.4297E-03  (   0.220 %)
ABS virtual   = 0.4820E-06  +/-  0.8690E-09  (   0.180 %)
Born          = 0.1773E-05  +/-  0.2674E-08  (   0.151 %)
V  2          = -.1166E-09  +/-  0.1082E-08  ( 927.329 %)
B  2          = 0.1773E-05  +/-  0.2674E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9081E-06  +/-  0.1822E-08  (   0.201 %)
accumulated results Integral      = 0.5121E-06  +/-  0.2080E-08  (   0.406 %)
accumulated results Virtual       = -.1166E-09  +/-  0.1082E-08  ( 927.329 %)
accumulated results Virtual ratio = -.1949E+00  +/-  0.4297E-03  (   0.220 %)
accumulated results ABS virtual   = 0.4820E-06  +/-  0.8690E-09  (   0.180 %)
accumulated results Born          = 0.1773E-05  +/-  0.2674E-08  (   0.151 %)
accumulated results V  2          = -.1166E-09  +/-  0.1082E-08  ( 927.329 %)
accumulated results B  2          = 0.1773E-05  +/-  0.2674E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   209609    23899  0.3352E-06  0.1841E-06  0.8735E+00
channel    2 :     1 T   205536    24412  0.3376E-06  0.2003E-06  0.9253E+00
channel    3 :     2 T    71604     8586  0.1168E-06  0.6166E-07  0.9806E+00
channel    4 :     2 T    73123     8635  0.1186E-06  0.6605E-07  0.9702E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0807781734482641E-007  +/-   1.8224442513362144E-009
 Final result:   5.1211133162383464E-007  +/-   2.0798375536916448E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376423
   Stability unknown:                                          0
   Stable PS point:                                       376423
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376423
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376423
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.53880811    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.87987804    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.53873158    
 Time spent in Integrated_CT :    9.80743408    
 Time spent in Virtuals :    570.089478    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.76275158    
 Time spent in N1body_prefactor :   0.780513525    
 Time spent in Adding_alphas_pdf :    10.7917976    
 Time spent in Reweight_scale :    44.9999924    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.2149372    
 Time spent in Applying_cuts :    5.64697647    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    40.4651489    
 Time spent in Other_tasks :    24.9398193    
 Time spent in Total :    744.456299    
Time in seconds: 805



LOG file for integration channel /P0_uxu_emep/all_G1_8, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11326
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           8
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,  25256
  with seed                   49
 Ranmar initialization seeds         124        4601
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.440583D+04 0.440583D+04  1.00
 muF1, muF1_reference: 0.440583D+04 0.440583D+04  1.00
 muF2, muF2_reference: 0.440583D+04 0.440583D+04  1.00
 QES,  QES_reference:  0.440583D+04 0.440583D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4702207707262519E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4702207707262519E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.2324949159174390E-006           OLP:   -3.2324949159174360E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.4396272692962934E-006           OLP:   -7.4396272692963341E-006
  FINITE:
           OLP:   -4.8614702578183497E-005
           BORN:    9.3159175422185062E-004
  MOMENTA (Exyzm): 
           1   2202.9164905687635        0.0000000000000000        0.0000000000000000        2202.9164905687635        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2202.9164905687635       -0.0000000000000000       -0.0000000000000000       -2202.9164905687635        0.0000000000000000     
           3   2202.9164905687635       -1602.6401419601757       -1213.8564621984365        900.52103194581753        0.0000000000000000     
           4   2202.9164905687635        1602.6401419601757        1213.8564621984365       -900.52103194581753        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.2324949159174390E-006           OLP:   -3.2324949159174360E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.4396272692962943E-006           OLP:   -7.4396272692963341E-006
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9071E-06  +/-  0.1935E-08  (   0.213 %)
Integral      = 0.5133E-06  +/-  0.2178E-08  (   0.424 %)
Virtual       = -.2572E-10  +/-  0.1082E-08  ( ******* %)
Virtual ratio = -.1946E+00  +/-  0.4298E-03  (   0.221 %)
ABS virtual   = 0.4821E-06  +/-  0.8699E-09  (   0.180 %)
Born          = 0.1775E-05  +/-  0.2683E-08  (   0.151 %)
V  2          = -.2572E-10  +/-  0.1082E-08  ( ******* %)
B  2          = 0.1775E-05  +/-  0.2683E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9071E-06  +/-  0.1935E-08  (   0.213 %)
accumulated results Integral      = 0.5133E-06  +/-  0.2178E-08  (   0.424 %)
accumulated results Virtual       = -.2572E-10  +/-  0.1082E-08  ( ******* %)
accumulated results Virtual ratio = -.1946E+00  +/-  0.4298E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4821E-06  +/-  0.8699E-09  (   0.180 %)
accumulated results Born          = 0.1775E-05  +/-  0.2683E-08  (   0.151 %)
accumulated results V  2          = -.2572E-10  +/-  0.1082E-08  ( ******* %)
accumulated results B  2          = 0.1775E-05  +/-  0.2683E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   209036    23899  0.3334E-06  0.1847E-06  0.8735E+00
channel    2 :     1 T   205323    24412  0.3340E-06  0.1987E-06  0.9562E+00
channel    3 :     2 T    71774     8586  0.1180E-06  0.6257E-07  0.1000E+01
channel    4 :     2 T    73743     8635  0.1216E-06  0.6733E-07  0.7198E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0706470618393548E-007  +/-   1.9351374976573695E-009
 Final result:   5.1334766895104726E-007  +/-   2.1779874405766102E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376423
   Stability unknown:                                          0
   Stable PS point:                                       376423
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376423
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376423
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.56469429    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.87067699    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.52451038    
 Time spent in Integrated_CT :    10.0103760    
 Time spent in Virtuals :    570.368286    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.72632027    
 Time spent in N1body_prefactor :   0.789746284    
 Time spent in Adding_alphas_pdf :    10.8883476    
 Time spent in Reweight_scale :    45.2588348    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.2640171    
 Time spent in Applying_cuts :    5.73287535    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    40.5794640    
 Time spent in Other_tasks :    25.0234375    
 Time spent in Total :    745.601624    
Time in seconds: 818



LOG file for integration channel /P0_uxu_emep/all_G1_9, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11352
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           9
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,  28413
  with seed                   49
 Ranmar initialization seeds         124        7758
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.432168D+04 0.432168D+04  1.00
 muF1, muF1_reference: 0.432168D+04 0.432168D+04  1.00
 muF2, muF2_reference: 0.432168D+04 0.432168D+04  1.00
 QES,  QES_reference:  0.432168D+04 0.432168D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4837920071511604E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4837920071511604E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6889025628897130E-006           OLP:   -3.6889025628897138E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8646228597125606E-006           OLP:   -7.8646228597125623E-006
  FINITE:
           OLP:   -7.4265197570664508E-005
           BORN:    1.0631265629510061E-003
  MOMENTA (Exyzm): 
           1   2160.8411349562066        0.0000000000000000        0.0000000000000000        2160.8411349562066        0.0000000000000000     
           2   2160.8411349562066       -0.0000000000000000       -0.0000000000000000       -2160.8411349562066        0.0000000000000000     
           3   2160.8411349562066       -2039.0379950128372       -66.966749128335096        712.09123005696324        0.0000000000000000     
           4   2160.8411349562066        2039.0379950128372        66.966749128335096       -712.09123005696324        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6889025628897130E-006           OLP:   -3.6889025628897138E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -7.8646228597125606E-006           OLP:   -7.8646228597125623E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9117E-06  +/-  0.1833E-08  (   0.201 %)
Integral      = 0.5178E-06  +/-  0.2090E-08  (   0.404 %)
Virtual       = 0.1449E-08  +/-  0.1087E-08  (  75.046 %)
Virtual ratio = -.1944E+00  +/-  0.4292E-03  (   0.221 %)
ABS virtual   = 0.4848E-06  +/-  0.8729E-09  (   0.180 %)
Born          = 0.1782E-05  +/-  0.2684E-08  (   0.151 %)
V  2          = 0.1449E-08  +/-  0.1087E-08  (  75.046 %)
B  2          = 0.1782E-05  +/-  0.2684E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9117E-06  +/-  0.1833E-08  (   0.201 %)
accumulated results Integral      = 0.5178E-06  +/-  0.2090E-08  (   0.404 %)
accumulated results Virtual       = 0.1449E-08  +/-  0.1087E-08  (  75.046 %)
accumulated results Virtual ratio = -.1944E+00  +/-  0.4292E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4848E-06  +/-  0.8729E-09  (   0.180 %)
accumulated results Born          = 0.1782E-05  +/-  0.2684E-08  (   0.151 %)
accumulated results V  2          = 0.1449E-08  +/-  0.1087E-08  (  75.046 %)
accumulated results B  2          = 0.1782E-05  +/-  0.2684E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                            1                           2                      3                   4
channel    1 :     1 T   209209    23899  0.3365E-06  0.1865E-06  0.8651E+00
channel    2 :     1 T   205051    24412  0.3361E-06  0.2007E-06  0.9580E+00
channel    3 :     2 T    71883     8586  0.1179E-06  0.6236E-07  0.9240E+00
channel    4 :     2 T    73727     8635  0.1212E-06  0.6826E-07  0.9549E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.1172888615066223E-007  +/-   1.8331631550106210E-009
 Final result:   5.1780653871756072E-007  +/-   2.0895691199086843E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    377086
   Stability unknown:                                          0
   Stable PS point:                                       377086
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 377086
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       377086
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.55535018    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.88202572    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.53038311    
 Time spent in Integrated_CT :    10.0005493    
 Time spent in Virtuals :    572.026367    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.69186401    
 Time spent in N1body_prefactor :   0.795837522    
 Time spent in Adding_alphas_pdf :    10.8791866    
 Time spent in Reweight_scale :    45.1355286    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.1385508    
 Time spent in Applying_cuts :    5.68114853    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    40.5640640    
 Time spent in Other_tasks :    25.1065063    
 Time spent in Total :    746.987366    
Time in seconds: 804



LOG file for integration channel /P0_uxu_emep/all_G1_10, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11323
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          10
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,  31570
  with seed                   49
 Ranmar initialization seeds         124       10915
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.436135D+04 0.436135D+04  1.00
 muF1, muF1_reference: 0.436135D+04 0.436135D+04  1.00
 muF2, muF2_reference: 0.436135D+04 0.436135D+04  1.00
 QES,  QES_reference:  0.436135D+04 0.436135D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4773556655002404E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4773556655002404E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.3768403665844723E-006           OLP:   -3.3768403665844660E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.5750016732028474E-006           OLP:   -7.5750016732027881E-006
  FINITE:
           OLP:   -5.6267757039983607E-005
           BORN:    9.7319152006794161E-004
  MOMENTA (Exyzm): 
           1   2180.6765272166190        0.0000000000000000        0.0000000000000000        2180.6765272166190        0.0000000000000000     
           2   2180.6765272166190       -0.0000000000000000       -0.0000000000000000       -2180.6765272166190        0.0000000000000000     
           3   2180.6765272166190       -1849.7526552611832       -799.55582805678557        833.35209157244162        0.0000000000000000     
           4   2180.6765272166190        1849.7526552611832        799.55582805678557       -833.35209157244162        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.3768403665844723E-006           OLP:   -3.3768403665844660E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.5750016732028474E-006           OLP:   -7.5750016732027881E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9065E-06  +/-  0.1802E-08  (   0.199 %)
Integral      = 0.5185E-06  +/-  0.2058E-08  (   0.397 %)
Virtual       = 0.3787E-09  +/-  0.1087E-08  ( 287.108 %)
Virtual ratio = -.1948E+00  +/-  0.4298E-03  (   0.221 %)
ABS virtual   = 0.4833E-06  +/-  0.8747E-09  (   0.181 %)
Born          = 0.1776E-05  +/-  0.2684E-08  (   0.151 %)
V  2          = 0.3787E-09  +/-  0.1087E-08  ( 287.108 %)
B  2          = 0.1776E-05  +/-  0.2684E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9065E-06  +/-  0.1802E-08  (   0.199 %)
accumulated results Integral      = 0.5185E-06  +/-  0.2058E-08  (   0.397 %)
accumulated results Virtual       = 0.3787E-09  +/-  0.1087E-08  ( 287.108 %)
accumulated results Virtual ratio = -.1948E+00  +/-  0.4298E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4833E-06  +/-  0.8747E-09  (   0.181 %)
accumulated results Born          = 0.1776E-05  +/-  0.2684E-08  (   0.151 %)
accumulated results V  2          = 0.3787E-09  +/-  0.1087E-08  ( 287.108 %)
accumulated results B  2          = 0.1776E-05  +/-  0.2684E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                      3                    4
channel    1 :     1 T   209840    23899  0.3354E-06  0.1860E-06  0.8637E+00
channel    2 :     1 T   204551    24412  0.3330E-06  0.2005E-06  0.9752E+00
channel    3 :     2 T    71859     8586  0.1169E-06  0.6308E-07  0.1000E+01
channel    4 :     2 T    73622     8635  0.1213E-06  0.6887E-07  0.9280E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0654562397591031E-007  +/-   1.8020302519127250E-009
 Final result:   5.1849933049453796E-007  +/-   2.0579137901322344E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376484
   Stability unknown:                                          0
   Stable PS point:                                       376484
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376484
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376484
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.56298590    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.84985161    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.57504606    
 Time spent in Integrated_CT :    9.96118164    
 Time spent in Virtuals :    572.039551    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.67450333    
 Time spent in N1body_prefactor :   0.759023666    
 Time spent in Adding_alphas_pdf :    10.9502277    
 Time spent in Reweight_scale :    45.1739845    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.4066277    
 Time spent in Applying_cuts :    5.73143625    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    40.5885429    
 Time spent in Other_tasks :    25.0792236    
 Time spent in Total :    747.352234    
Time in seconds: 818



LOG file for integration channel /P0_uxu_emep/all_G1_11, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11358
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          11
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,  34727
  with seed                   49
 Ranmar initialization seeds         124       14072
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.442706D+04 0.442706D+04  1.00
 muF1, muF1_reference: 0.442706D+04 0.442706D+04  1.00
 muF2, muF2_reference: 0.442706D+04 0.442706D+04  1.00
 QES,  QES_reference:  0.442706D+04 0.442706D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4668456516709100E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4668456516709100E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9679879459898331E-006           OLP:   -3.9679879459898289E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1144565128396703E-006           OLP:   -8.1144565128396500E-006
  FINITE:
           OLP:   -9.4267636306786487E-005
           BORN:    1.1435578237519615E-003
  MOMENTA (Exyzm): 
           1   2213.5308693778020        0.0000000000000000        0.0000000000000000        2213.5308693778020        0.0000000000000000     
           2   2213.5308693778020       -0.0000000000000000       -0.0000000000000000       -2213.5308693778020        0.0000000000000000     
           3   2213.5308693778020       -2000.0227742570369       -704.47953861506664        635.08770403333767        0.0000000000000000     
           4   2213.5308693778020        2000.0227742570369        704.47953861506664       -635.08770403333767        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9679879459898331E-006           OLP:   -3.9679879459898289E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1144565128396720E-006           OLP:   -8.1144565128396500E-006
 REAL 3: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
ABS integral  = 0.9095E-06  +/-  0.2053E-08  (   0.226 %)
Integral      = 0.5098E-06  +/-  0.2286E-08  (   0.449 %)
Virtual       = -.5598E-09  +/-  0.1089E-08  ( 194.517 %)
Virtual ratio = -.1956E+00  +/-  0.4301E-03  (   0.220 %)
ABS virtual   = 0.4827E-06  +/-  0.8772E-09  (   0.182 %)
Born          = 0.1774E-05  +/-  0.2685E-08  (   0.151 %)
V  2          = -.5598E-09  +/-  0.1089E-08  ( 194.517 %)
B  2          = 0.1774E-05  +/-  0.2685E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9095E-06  +/-  0.2053E-08  (   0.226 %)
accumulated results Integral      = 0.5098E-06  +/-  0.2286E-08  (   0.449 %)
accumulated results Virtual       = -.5598E-09  +/-  0.1089E-08  ( 194.517 %)
accumulated results Virtual ratio = -.1956E+00  +/-  0.4301E-03  (   0.220 %)
accumulated results ABS virtual   = 0.4827E-06  +/-  0.8772E-09  (   0.182 %)
accumulated results Born          = 0.1774E-05  +/-  0.2685E-08  (   0.151 %)
accumulated results V  2          = -.5598E-09  +/-  0.1089E-08  ( 194.517 %)
accumulated results B  2          = 0.1774E-05  +/-  0.2685E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                           1                                                       2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   209328    23899  0.3370E-06  0.1834E-06  0.7076E+00
channel    2 :     1 T   205145    24412  0.3355E-06  0.1961E-06  0.8993E+00
channel    3 :     2 T    71705     8586  0.1165E-06  0.6244E-07  0.1000E+01
channel    4 :     2 T    73700     8635  0.1205E-06  0.6782E-07  0.9700E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0954928402808389E-007  +/-   2.0529492438595258E-009
 Final result:   5.0976971446234861E-007  +/-   2.2864979450590191E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376126
   Stability unknown:                                          0
   Stable PS point:                                       376126
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376126
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376126
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.57122672    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.88538122    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.60871983    
 Time spent in Integrated_CT :    10.0761108    
 Time spent in Virtuals :    570.634216    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.75046539    
 Time spent in N1body_prefactor :   0.752798259    
 Time spent in Adding_alphas_pdf :    10.9741821    
 Time spent in Reweight_scale :    45.1384163    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.6121187    
 Time spent in Applying_cuts :    5.81465054    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    40.6347046    
 Time spent in Other_tasks :    25.1791382    
 Time spent in Total :    746.632141    
Time in seconds: 804



LOG file for integration channel /P0_uxu_emep/all_G1_12, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11350
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          12
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,  37884
  with seed                   49
 Ranmar initialization seeds         124       17229
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.443109D+04 0.443109D+04  1.00
 muF1, muF1_reference: 0.443109D+04 0.443109D+04  1.00
 muF2, muF2_reference: 0.443109D+04 0.443109D+04  1.00
 QES,  QES_reference:  0.443109D+04 0.443109D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4662078140115912E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4662078140115912E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7040568389845938E-006           OLP:   -3.7040568389845997E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8784510878684317E-006           OLP:   -7.8784510878686130E-006
  FINITE:
           OLP:   -7.7693226910001547E-005
           BORN:    1.0674939630609566E-003
  MOMENTA (Exyzm): 
           1   2215.5436858452658        0.0000000000000000        0.0000000000000000        2215.5436858452658        0.0000000000000000     
           2   2215.5436858452658       -0.0000000000000000       -0.0000000000000000       -2215.5436858452658        0.0000000000000000     
           3   2215.5436858452658       -1479.5661561730471       -1481.2890862948452        724.77614214316009        0.0000000000000000     
           4   2215.5436858452658        1479.5661561730471        1481.2890862948452       -724.77614214316009        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7040568389845938E-006           OLP:   -3.7040568389845997E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8784510878684317E-006           OLP:   -7.8784510878686130E-006
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9103E-06  +/-  0.1819E-08  (   0.200 %)
Integral      = 0.5123E-06  +/-  0.2079E-08  (   0.406 %)
Virtual       = -.1664E-09  +/-  0.1085E-08  ( 652.098 %)
Virtual ratio = -.1944E+00  +/-  0.4298E-03  (   0.221 %)
ABS virtual   = 0.4839E-06  +/-  0.8710E-09  (   0.180 %)
Born          = 0.1778E-05  +/-  0.2681E-08  (   0.151 %)
V  2          = -.1664E-09  +/-  0.1085E-08  ( 652.098 %)
B  2          = 0.1778E-05  +/-  0.2681E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9103E-06  +/-  0.1819E-08  (   0.200 %)
accumulated results Integral      = 0.5123E-06  +/-  0.2079E-08  (   0.406 %)
accumulated results Virtual       = -.1664E-09  +/-  0.1085E-08  ( 652.098 %)
accumulated results Virtual ratio = -.1944E+00  +/-  0.4298E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4839E-06  +/-  0.8710E-09  (   0.180 %)
accumulated results Born          = 0.1778E-05  +/-  0.2681E-08  (   0.151 %)
accumulated results V  2          = -.1664E-09  +/-  0.1085E-08  ( 652.098 %)
accumulated results B  2          = 0.1778E-05  +/-  0.2681E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   209720    23899  0.3371E-06  0.1850E-06  0.8805E+00
channel    2 :     1 T   204495    24412  0.3351E-06  0.1959E-06  0.9259E+00
channel    3 :     2 T    71772     8586  0.1183E-06  0.6321E-07  0.9972E+00
channel    4 :     2 T    73888     8635  0.1198E-06  0.6814E-07  0.9582E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.1028431085543915E-007  +/-   1.8193028099471122E-009
 Final result:   5.1225865976487479E-007  +/-   2.0787449685439101E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376640
   Stability unknown:                                          0
   Stable PS point:                                       376640
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376640
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376640
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.64508867    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.92457199    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.62759590    
 Time spent in Integrated_CT :    10.1550293    
 Time spent in Virtuals :    578.540283    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.03661156    
 Time spent in N1body_prefactor :   0.820361972    
 Time spent in Adding_alphas_pdf :    10.8542738    
 Time spent in Reweight_scale :    44.9370651    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.1863728    
 Time spent in Applying_cuts :    5.86720943    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    40.7477608    
 Time spent in Other_tasks :    25.9005127    
 Time spent in Total :    756.242737    
Time in seconds: 815



LOG file for integration channel /P0_uxu_emep/all_G1_13, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11349
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          13
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,  41041
  with seed                   49
 Ranmar initialization seeds         124       20386
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.443814D+04 0.443814D+04  1.00
 muF1, muF1_reference: 0.443814D+04 0.443814D+04  1.00
 muF2, muF2_reference: 0.443814D+04 0.443814D+04  1.00
 QES,  QES_reference:  0.443814D+04 0.443814D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4650919169865534E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4650919169865534E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6339904720491440E-006           OLP:   -3.6339904720491444E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8142736778125985E-006           OLP:   -7.8142736778126036E-006
  FINITE:
           OLP:   -7.3495699199413672E-005
           BORN:    1.0473011239743645E-003
  MOMENTA (Exyzm): 
           1   2219.0703913166813        0.0000000000000000        0.0000000000000000        2219.0703913166813        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2219.0703913166813       -0.0000000000000000       -0.0000000000000000       -2219.0703913166813        0.0000000000000000     
           3   2219.0703913166813       -2008.0767527190028       -572.77267664451904        750.88788623691812        0.0000000000000000     
           4   2219.0703913166813        2008.0767527190028        572.77267664451904       -750.88788623691812        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6339904720491440E-006           OLP:   -3.6339904720491444E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8142736778125985E-006           OLP:   -7.8142736778126036E-006
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9074E-06  +/-  0.1827E-08  (   0.201 %)
Integral      = 0.5142E-06  +/-  0.2082E-08  (   0.405 %)
Virtual       = 0.5951E-09  +/-  0.1085E-08  ( 182.351 %)
Virtual ratio = -.1939E+00  +/-  0.4294E-03  (   0.222 %)
ABS virtual   = 0.4834E-06  +/-  0.8719E-09  (   0.180 %)
Born          = 0.1778E-05  +/-  0.2681E-08  (   0.151 %)
V  2          = 0.5951E-09  +/-  0.1085E-08  ( 182.351 %)
B  2          = 0.1778E-05  +/-  0.2681E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9074E-06  +/-  0.1827E-08  (   0.201 %)
accumulated results Integral      = 0.5142E-06  +/-  0.2082E-08  (   0.405 %)
accumulated results Virtual       = 0.5951E-09  +/-  0.1085E-08  ( 182.351 %)
accumulated results Virtual ratio = -.1939E+00  +/-  0.4294E-03  (   0.222 %)
accumulated results ABS virtual   = 0.4834E-06  +/-  0.8719E-09  (   0.180 %)
accumulated results Born          = 0.1778E-05  +/-  0.2681E-08  (   0.151 %)
accumulated results V  2          = 0.5951E-09  +/-  0.1085E-08  ( 182.351 %)
accumulated results B  2          = 0.1778E-05  +/-  0.2681E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   209478    23899  0.3343E-06  0.1841E-06  0.8946E+00
channel    2 :     1 T   204640    24412  0.3358E-06  0.1987E-06  0.9101E+00
channel    3 :     2 T    72318     8586  0.1185E-06  0.6295E-07  0.9702E+00
channel    4 :     2 T    73433     8635  0.1188E-06  0.6849E-07  0.9813E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0738145276346271E-007  +/-   1.8265063888683859E-009
 Final result:   5.1423973523728794E-007  +/-   2.0819190591606798E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376479
   Stability unknown:                                          0
   Stable PS point:                                       376479
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376479
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376479
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.62462878    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.97115707    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.92494583    
 Time spent in Integrated_CT :    10.3983765    
 Time spent in Virtuals :    578.879089    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.66635132    
 Time spent in N1body_prefactor :   0.768599391    
 Time spent in Adding_alphas_pdf :    10.8629608    
 Time spent in Reweight_scale :    45.0502663    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.7546940    
 Time spent in Applying_cuts :    5.83847094    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    42.5066757    
 Time spent in Other_tasks :    25.7379150    
 Time spent in Total :    758.984253    
Time in seconds: 814



LOG file for integration channel /P0_uxu_emep/all_G1_14, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11328
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          14
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,  44198
  with seed                   49
 Ranmar initialization seeds         124       23543
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.443467D+04 0.443467D+04  1.00
 muF1, muF1_reference: 0.443467D+04 0.443467D+04  1.00
 muF2, muF2_reference: 0.443467D+04 0.443467D+04  1.00
 QES,  QES_reference:  0.443467D+04 0.443467D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4656410086881800E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4656410086881800E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.1347986407446012E-006           OLP:   -4.1347986407446012E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.2581097173109790E-006           OLP:   -8.2581097173110163E-006
  FINITE:
           OLP:   -1.0520925969306984E-004
           BORN:    1.1916319806467930E-003
  MOMENTA (Exyzm): 
           1   2217.3341890237548        0.0000000000000000        0.0000000000000000        2217.3341890237548        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2217.3341890237548       -0.0000000000000000       -0.0000000000000000       -2217.3341890237548        0.0000000000000000     
           3   2217.3341890237548       -2132.9203779586533       -164.76557709821259        583.15853050936425        0.0000000000000000     
           4   2217.3341890237548        2132.9203779586533        164.76557709821259       -583.15853050936425        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.1347986407446012E-006           OLP:   -4.1347986407446012E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.2581097173109790E-006           OLP:   -8.2581097173110163E-006
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9082E-06  +/-  0.2165E-08  (   0.238 %)
Integral      = 0.5162E-06  +/-  0.2384E-08  (   0.462 %)
Virtual       = 0.8936E-09  +/-  0.1084E-08  ( 121.261 %)
Virtual ratio = -.1947E+00  +/-  0.4296E-03  (   0.221 %)
ABS virtual   = 0.4828E-06  +/-  0.8706E-09  (   0.180 %)
Born          = 0.1775E-05  +/-  0.2679E-08  (   0.151 %)
V  2          = 0.8936E-09  +/-  0.1084E-08  ( 121.261 %)
B  2          = 0.1775E-05  +/-  0.2679E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9082E-06  +/-  0.2165E-08  (   0.238 %)
accumulated results Integral      = 0.5162E-06  +/-  0.2384E-08  (   0.462 %)
accumulated results Virtual       = 0.8936E-09  +/-  0.1084E-08  ( 121.261 %)
accumulated results Virtual ratio = -.1947E+00  +/-  0.4296E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4828E-06  +/-  0.8706E-09  (   0.180 %)
accumulated results Born          = 0.1775E-05  +/-  0.2679E-08  (   0.151 %)
accumulated results V  2          = 0.8936E-09  +/-  0.1084E-08  ( 121.261 %)
accumulated results B  2          = 0.1775E-05  +/-  0.2679E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                      3                    4
channel    1 :     1 T   209885    23899  0.3379E-06  0.1864E-06  0.6209E+00
channel    2 :     1 T   204177    24412  0.3342E-06  0.1998E-06  0.9575E+00
channel    3 :     2 T    71689     8586  0.1165E-06  0.6189E-07  0.9582E+00
channel    4 :     2 T    74122     8635  0.1197E-06  0.6815E-07  0.9619E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0819627801627531E-007  +/-   2.1651270287890346E-009
 Final result:   5.1621501648174446E-007  +/-   2.3843328712562404E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376288
   Stability unknown:                                          0
   Stable PS point:                                       376288
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376288
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376288
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.55517483    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.88464737    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.61243677    
 Time spent in Integrated_CT :    10.0661621    
 Time spent in Virtuals :    571.284119    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.72646332    
 Time spent in N1body_prefactor :   0.797302902    
 Time spent in Adding_alphas_pdf :    10.8496532    
 Time spent in Reweight_scale :    45.1024933    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.2296820    
 Time spent in Applying_cuts :    5.66931057    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    41.2471161    
 Time spent in Other_tasks :    24.9844360    
 Time spent in Total :    747.008972    
Time in seconds: 817



LOG file for integration channel /P0_uxu_emep/all_G1_15, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11324
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          15
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,  47355
  with seed                   49
 Ranmar initialization seeds         124       26700
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.433479D+04 0.433479D+04  1.00
 muF1, muF1_reference: 0.433479D+04 0.433479D+04  1.00
 muF2, muF2_reference: 0.433479D+04 0.433479D+04  1.00
 QES,  QES_reference:  0.433479D+04 0.433479D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4816577695360834E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4816577695360834E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7343193510893353E-006           OLP:   -3.7343193510893412E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9059978602872937E-006           OLP:   -7.9059978602873835E-006
  FINITE:
           OLP:   -7.7361453415544443E-005
           BORN:    1.0762154947175082E-003
  MOMENTA (Exyzm): 
           1   2167.3946803995896        0.0000000000000000        0.0000000000000000        2167.3946803995896        0.0000000000000000     
           2   2167.3946803995896       -0.0000000000000000       -0.0000000000000000       -2167.3946803995896        0.0000000000000000     
           3   2167.3946803995896       -1027.3112990329637       -1775.9761994139283        698.66997546688913        0.0000000000000000     
           4   2167.3946803995896        1027.3112990329637        1775.9761994139283       -698.66997546688913        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7343193510893353E-006           OLP:   -3.7343193510893412E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9059978602872937E-006           OLP:   -7.9059978602873835E-006
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9095E-06  +/-  0.1998E-08  (   0.220 %)
Integral      = 0.5128E-06  +/-  0.2236E-08  (   0.436 %)
Virtual       = 0.5568E-10  +/-  0.1087E-08  ( ******* %)
Virtual ratio = -.1944E+00  +/-  0.4289E-03  (   0.221 %)
ABS virtual   = 0.4838E-06  +/-  0.8732E-09  (   0.180 %)
Born          = 0.1780E-05  +/-  0.2689E-08  (   0.151 %)
V  2          = 0.5568E-10  +/-  0.1087E-08  ( ******* %)
B  2          = 0.1780E-05  +/-  0.2689E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9095E-06  +/-  0.1998E-08  (   0.220 %)
accumulated results Integral      = 0.5128E-06  +/-  0.2236E-08  (   0.436 %)
accumulated results Virtual       = 0.5568E-10  +/-  0.1087E-08  ( ******* %)
accumulated results Virtual ratio = -.1944E+00  +/-  0.4289E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4838E-06  +/-  0.8732E-09  (   0.180 %)
accumulated results Born          = 0.1780E-05  +/-  0.2689E-08  (   0.151 %)
accumulated results V  2          = 0.5568E-10  +/-  0.1087E-08  ( ******* %)
accumulated results B  2          = 0.1780E-05  +/-  0.2689E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                      3                    4
channel    1 :     1 T   209563    23899  0.3374E-06  0.1845E-06  0.7654E+00
channel    2 :     1 T   204800    24412  0.3357E-06  0.1994E-06  0.8746E+00
channel    3 :     2 T    71654     8586  0.1167E-06  0.6119E-07  0.9868E+00
channel    4 :     2 T    73855     8635  0.1196E-06  0.6775E-07  0.9719E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0949350844054289E-007  +/-   1.9980701167639309E-009
 Final result:   5.1282882384308507E-007  +/-   2.2360652513467272E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    377012
   Stability unknown:                                          0
   Stable PS point:                                       377012
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 377012
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       377012
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.56951523    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.93404531    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.66496611    
 Time spent in Integrated_CT :    10.0077515    
 Time spent in Virtuals :    572.704346    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.81801319    
 Time spent in N1body_prefactor :   0.768027425    
 Time spent in Adding_alphas_pdf :    10.8021517    
 Time spent in Reweight_scale :    45.2181320    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.3186951    
 Time spent in Applying_cuts :    5.72570610    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    40.7396393    
 Time spent in Other_tasks :    25.0924072    
 Time spent in Total :    748.363281    
Time in seconds: 817



LOG file for integration channel /P0_uxu_emep/all_G1_16, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11329
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          16
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,  50512
  with seed                   49
 Ranmar initialization seeds         124       29857
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.443038D+04 0.443038D+04  1.00
 muF1, muF1_reference: 0.443038D+04 0.443038D+04  1.00
 muF2, muF2_reference: 0.443038D+04 0.443038D+04  1.00
 QES,  QES_reference:  0.443038D+04 0.443038D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4663194755011583E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4663194755011583E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.1714754514365877E-006           OLP:   -4.1714754514365885E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.2890637090546585E-006           OLP:   -8.2890637090546162E-006
  FINITE:
           OLP:   -1.0747904441068972E-004
           BORN:    1.2022020868033599E-003
  MOMENTA (Exyzm): 
           1   2215.1911585720782        0.0000000000000000        0.0000000000000000        2215.1911585720782        0.0000000000000000     
           2   2215.1911585720782       -0.0000000000000000       -0.0000000000000000       -2215.1911585720782        0.0000000000000000     
           3   2215.1911585720782       -2059.5343137558984       -582.28828996008110        571.25355740974817        0.0000000000000000     
           4   2215.1911585720782        2059.5343137558984        582.28828996008110       -571.25355740974817        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.1714754514365877E-006           OLP:   -4.1714754514365885E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.2890637090546585E-006           OLP:   -8.2890637090546162E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9108E-06  +/-  0.2027E-08  (   0.223 %)
Integral      = 0.5120E-06  +/-  0.2263E-08  (   0.442 %)
Virtual       = -.2032E-09  +/-  0.1085E-08  ( 533.800 %)
Virtual ratio = -.1946E+00  +/-  0.4296E-03  (   0.221 %)
ABS virtual   = 0.4844E-06  +/-  0.8704E-09  (   0.180 %)
Born          = 0.1781E-05  +/-  0.2682E-08  (   0.151 %)
V  2          = -.2032E-09  +/-  0.1085E-08  ( 533.800 %)
B  2          = 0.1781E-05  +/-  0.2682E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9108E-06  +/-  0.2027E-08  (   0.223 %)
accumulated results Integral      = 0.5120E-06  +/-  0.2263E-08  (   0.442 %)
accumulated results Virtual       = -.2032E-09  +/-  0.1085E-08  ( 533.800 %)
accumulated results Virtual ratio = -.1946E+00  +/-  0.4296E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4844E-06  +/-  0.8704E-09  (   0.180 %)
accumulated results Born          = 0.1781E-05  +/-  0.2682E-08  (   0.151 %)
accumulated results V  2          = -.2032E-09  +/-  0.1085E-08  ( 533.800 %)
accumulated results B  2          = 0.1781E-05  +/-  0.2682E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   208797    23899  0.3365E-06  0.1847E-06  0.8408E+00
channel    2 :     1 T   205094    24412  0.3345E-06  0.1975E-06  0.9784E+00
channel    3 :     2 T    72187     8586  0.1189E-06  0.6139E-07  0.6259E+00
channel    4 :     2 T    73793     8635  0.1208E-06  0.6844E-07  0.9787E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.1076538466226015E-007  +/-   2.0265114565441682E-009
 Final result:   5.1203549132620300E-007  +/-   2.2627504618779058E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376740
   Stability unknown:                                          0
   Stable PS point:                                       376740
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376740
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376740
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.55420613    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.89158010    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.51956987    
 Time spent in Integrated_CT :    9.86700439    
 Time spent in Virtuals :    579.262634    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.61454487    
 Time spent in N1body_prefactor :   0.783046603    
 Time spent in Adding_alphas_pdf :    10.8365231    
 Time spent in Reweight_scale :    44.9530525    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.5123253    
 Time spent in Applying_cuts :    5.76617718    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    40.3613930    
 Time spent in Other_tasks :    24.7730713    
 Time spent in Total :    753.695129    
Time in seconds: 827



LOG file for integration channel /P0_uxu_emep/all_G1_17, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11325
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          17
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,  53669
  with seed                   49
 Ranmar initialization seeds         124        2933
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.441663D+04 0.441663D+04  1.00
 muF1, muF1_reference: 0.441663D+04 0.441663D+04  1.00
 muF2, muF2_reference: 0.441663D+04 0.441663D+04  1.00
 QES,  QES_reference:  0.441663D+04 0.441663D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4685009476967559E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4685009476967559E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8949380336163249E-006           OLP:   -3.8949380336163181E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0501392653562026E-006           OLP:   -8.0501392653562992E-006
  FINITE:
           OLP:   -8.9359413702525588E-005
           BORN:    1.1225051391278700E-003
  MOMENTA (Exyzm): 
           1   2208.3174965666112        0.0000000000000000        0.0000000000000000        2208.3174965666112        0.0000000000000000     
           2   2208.3174965666112       -0.0000000000000000       -0.0000000000000000       -2208.3174965666112        0.0000000000000000     
           3   2208.3174965666112       -1336.9774008336751       -1629.9913598541289        657.48441966570147        0.0000000000000000     
           4   2208.3174965666112        1336.9774008336751        1629.9913598541289       -657.48441966570147        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8949380336163249E-006           OLP:   -3.8949380336163181E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -8.0501392653562043E-006           OLP:   -8.0501392653562992E-006
 REAL 3: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9090E-06  +/-  0.1843E-08  (   0.203 %)
Integral      = 0.5167E-06  +/-  0.2097E-08  (   0.406 %)
Virtual       = 0.6196E-09  +/-  0.1086E-08  ( 175.322 %)
Virtual ratio = -.1947E+00  +/-  0.4289E-03  (   0.220 %)
ABS virtual   = 0.4837E-06  +/-  0.8731E-09  (   0.181 %)
Born          = 0.1779E-05  +/-  0.2681E-08  (   0.151 %)
V  2          = 0.6196E-09  +/-  0.1086E-08  ( 175.322 %)
B  2          = 0.1779E-05  +/-  0.2681E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9090E-06  +/-  0.1843E-08  (   0.203 %)
accumulated results Integral      = 0.5167E-06  +/-  0.2097E-08  (   0.406 %)
accumulated results Virtual       = 0.6196E-09  +/-  0.1086E-08  ( 175.322 %)
accumulated results Virtual ratio = -.1947E+00  +/-  0.4289E-03  (   0.220 %)
accumulated results ABS virtual   = 0.4837E-06  +/-  0.8731E-09  (   0.181 %)
accumulated results Born          = 0.1779E-05  +/-  0.2681E-08  (   0.151 %)
accumulated results V  2          = 0.6196E-09  +/-  0.1086E-08  ( 175.322 %)
accumulated results B  2          = 0.1779E-05  +/-  0.2681E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   209509    23899  0.3371E-06  0.1886E-06  0.8869E+00
channel    2 :     1 T   204642    24412  0.3339E-06  0.1970E-06  0.9036E+00
channel    3 :     2 T    72121     8586  0.1177E-06  0.6271E-07  0.1000E+01
channel    4 :     2 T    73599     8635  0.1203E-06  0.6834E-07  0.9507E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0897791369493540E-007  +/-   1.8430714677464410E-009
 Final result:   5.1666422173516740E-007  +/-   2.0966375130663244E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    377015
   Stability unknown:                                          0
   Stable PS point:                                       377015
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 377015
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       377015
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.57024705    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.88724327    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.61468887    
 Time spent in Integrated_CT :    10.0017700    
 Time spent in Virtuals :    571.895935    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.68039417    
 Time spent in N1body_prefactor :   0.803094506    
 Time spent in Adding_alphas_pdf :    10.9055519    
 Time spent in Reweight_scale :    45.2687149    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.2163725    
 Time spent in Applying_cuts :    5.71407413    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    40.5759850    
 Time spent in Other_tasks :    24.8908081    
 Time spent in Total :    747.024963    
Time in seconds: 818



LOG file for integration channel /P0_uxu_emep/all_G1_18, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11346
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          18
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,  56826
  with seed                   49
 Ranmar initialization seeds         124        6090
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.434883D+04 0.434883D+04  1.00
 muF1, muF1_reference: 0.434883D+04 0.434883D+04  1.00
 muF2, muF2_reference: 0.434883D+04 0.434883D+04  1.00
 QES,  QES_reference:  0.434883D+04 0.434883D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4793794105680558E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4793794105680558E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
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 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9589903837206972E-006           OLP:   -3.9589903837207014E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1065889401739947E-006           OLP:   -8.1065889401739557E-006
  FINITE:
           OLP:   -9.1736861154347271E-005
           BORN:    1.1409647632720362E-003
  MOMENTA (Exyzm): 
           1   2174.4167004761966        0.0000000000000000        0.0000000000000000        2174.4167004761966        0.0000000000000000     
           2   2174.4167004761966       -0.0000000000000000       -0.0000000000000000       -2174.4167004761966        0.0000000000000000     
           3   2174.4167004761966       -1540.5318159708736       -1400.7309269994005        626.73964406176947        0.0000000000000000     
           4   2174.4167004761966        1540.5318159708736        1400.7309269994005       -626.73964406176947        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9589903837206972E-006           OLP:   -3.9589903837207014E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -8.1065889401739947E-006           OLP:   -8.1065889401739557E-006
 REAL 2: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
ABS integral  = 0.9075E-06  +/-  0.1797E-08  (   0.198 %)
Integral      = 0.5122E-06  +/-  0.2057E-08  (   0.402 %)
Virtual       = -.1790E-08  +/-  0.1083E-08  (  60.501 %)
Virtual ratio = -.1954E+00  +/-  0.4296E-03  (   0.220 %)
ABS virtual   = 0.4831E-06  +/-  0.8694E-09  (   0.180 %)
Born          = 0.1778E-05  +/-  0.2673E-08  (   0.150 %)
V  2          = -.1790E-08  +/-  0.1083E-08  (  60.501 %)
B  2          = 0.1778E-05  +/-  0.2673E-08  (   0.150 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9075E-06  +/-  0.1797E-08  (   0.198 %)
accumulated results Integral      = 0.5122E-06  +/-  0.2057E-08  (   0.402 %)
accumulated results Virtual       = -.1790E-08  +/-  0.1083E-08  (  60.501 %)
accumulated results Virtual ratio = -.1954E+00  +/-  0.4296E-03  (   0.220 %)
accumulated results ABS virtual   = 0.4831E-06  +/-  0.8694E-09  (   0.180 %)
accumulated results Born          = 0.1778E-05  +/-  0.2673E-08  (   0.150 %)
accumulated results V  2          = -.1790E-08  +/-  0.1083E-08  (  60.501 %)
accumulated results B  2          = 0.1778E-05  +/-  0.2673E-08  (   0.150 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   209764    23899  0.3361E-06  0.1837E-06  0.8535E+00
channel    2 :     1 T   205142    24412  0.3362E-06  0.1998E-06  0.9643E+00
channel    3 :     2 T    71231     8586  0.1162E-06  0.6204E-07  0.9904E+00
channel    4 :     2 T    73735     8635  0.1190E-06  0.6670E-07  0.9907E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0752567900716830E-007  +/-   1.7967211018126901E-009
 Final result:   5.1224197492184983E-007  +/-   2.0568418428451667E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376938
   Stability unknown:                                          0
   Stable PS point:                                       376938
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376938
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376938
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.54493773    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.86239958    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.49600554    
 Time spent in Integrated_CT :    9.92480469    
 Time spent in Virtuals :    568.574951    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.68174648    
 Time spent in N1body_prefactor :   0.780002177    
 Time spent in Adding_alphas_pdf :    10.7856140    
 Time spent in Reweight_scale :    45.6607895    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.0159912    
 Time spent in Applying_cuts :    5.67541409    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    40.4998779    
 Time spent in Other_tasks :    24.7394409    
 Time spent in Total :    743.242004    
Time in seconds: 788



LOG file for integration channel /P0_uxu_emep/all_G1_19, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11320
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          19
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,  59983
  with seed                   49
 Ranmar initialization seeds         124        9247
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.439572D+04 0.439572D+04  1.00
 muF1, muF1_reference: 0.439572D+04 0.439572D+04  1.00
 muF2, muF2_reference: 0.439572D+04 0.439572D+04  1.00
 QES,  QES_reference:  0.439572D+04 0.439572D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4718357772485186E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4718357772485186E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9485949275212138E-006           OLP:   -3.9485949275212146E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0974656594623572E-006           OLP:   -8.0974656594623453E-006
  FINITE:
           OLP:   -9.2250764286214631E-005
           BORN:    1.1379688355045629E-003
  MOMENTA (Exyzm): 
           1   2197.8590387262507        0.0000000000000000        0.0000000000000000        2197.8590387262507        0.0000000000000000     
           2   2197.8590387262507       -0.0000000000000000       -0.0000000000000000       -2197.8590387262507        0.0000000000000000     
           3   2197.8590387262507       -2067.6253315793965       -387.19833474168524        636.85735600300245        0.0000000000000000     
           4   2197.8590387262507        2067.6253315793965        387.19833474168524       -636.85735600300245        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9485949275212138E-006           OLP:   -3.9485949275212146E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0974656594623589E-006           OLP:   -8.0974656594623453E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9095E-06  +/-  0.2110E-08  (   0.232 %)
Integral      = 0.5114E-06  +/-  0.2337E-08  (   0.457 %)
Virtual       = -.3732E-09  +/-  0.1082E-08  ( 289.955 %)
Virtual ratio = -.1944E+00  +/-  0.4294E-03  (   0.221 %)
ABS virtual   = 0.4826E-06  +/-  0.8690E-09  (   0.180 %)
Born          = 0.1775E-05  +/-  0.2676E-08  (   0.151 %)
V  2          = -.3732E-09  +/-  0.1082E-08  ( 289.955 %)
B  2          = 0.1775E-05  +/-  0.2676E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9095E-06  +/-  0.2110E-08  (   0.232 %)
accumulated results Integral      = 0.5114E-06  +/-  0.2337E-08  (   0.457 %)
accumulated results Virtual       = -.3732E-09  +/-  0.1082E-08  ( 289.955 %)
accumulated results Virtual ratio = -.1944E+00  +/-  0.4294E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4826E-06  +/-  0.8690E-09  (   0.180 %)
accumulated results Born          = 0.1775E-05  +/-  0.2676E-08  (   0.151 %)
accumulated results V  2          = -.3732E-09  +/-  0.1082E-08  ( 289.955 %)
accumulated results B  2          = 0.1775E-05  +/-  0.2676E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   209914    23899  0.3363E-06  0.1848E-06  0.8586E+00
channel    2 :     1 T   205024    24412  0.3359E-06  0.1998E-06  0.8587E+00
channel    3 :     2 T    71690     8586  0.1171E-06  0.6060E-07  0.7855E+00
channel    4 :     2 T    73239     8635  0.1202E-06  0.6624E-07  0.7294E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0952233687178765E-007  +/-   2.1096282636479533E-009
 Final result:   5.1144247037537281E-007  +/-   2.3368493722092478E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376456
   Stability unknown:                                          0
   Stable PS point:                                       376456
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376456
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376456
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.57550657    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.82070398    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.51286316    
 Time spent in Integrated_CT :    9.88476562    
 Time spent in Virtuals :    570.177856    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.65759182    
 Time spent in N1body_prefactor :   0.775789738    
 Time spent in Adding_alphas_pdf :    10.7863865    
 Time spent in Reweight_scale :    45.3260231    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.4428129    
 Time spent in Applying_cuts :    5.71595573    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    40.5061874    
 Time spent in Other_tasks :    24.6357422    
 Time spent in Total :    744.818176    
Time in seconds: 817



LOG file for integration channel /P0_uxu_emep/all_G1_20, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11327
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          20
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,  63140
  with seed                   49
 Ranmar initialization seeds         124       12404
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.443630D+04 0.443630D+04  1.00
 muF1, muF1_reference: 0.443630D+04 0.443630D+04  1.00
 muF2, muF2_reference: 0.443630D+04 0.443630D+04  1.00
 QES,  QES_reference:  0.443630D+04 0.443630D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4653823859679572E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4653823859679572E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9805521466030497E-006           OLP:   -3.9805521466030547E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1254340612776463E-006           OLP:   -8.1254340612776209E-006
  FINITE:
           OLP:   -9.5302628726712447E-005
           BORN:    1.1471787747492934E-003
  MOMENTA (Exyzm): 
           1   2218.1517389181781        0.0000000000000000        0.0000000000000000        2218.1517389181781        0.0000000000000000     
           2   2218.1517389181781       -0.0000000000000000       -0.0000000000000000       -2218.1517389181781        0.0000000000000000     
           3   2218.1517389181781       -1487.2291904070837       -1519.3745621370044        632.33488911953486        0.0000000000000000     
           4   2218.1517389181781        1487.2291904070837        1519.3745621370044       -632.33488911953486        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9805521466030497E-006           OLP:   -3.9805521466030547E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1254340612776446E-006           OLP:   -8.1254340612776209E-006
 REAL 1: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
ABS integral  = 0.9078E-06  +/-  0.1873E-08  (   0.206 %)
Integral      = 0.5111E-06  +/-  0.2125E-08  (   0.416 %)
Virtual       = -.5470E-09  +/-  0.1082E-08  ( 197.784 %)
Virtual ratio = -.1945E+00  +/-  0.4295E-03  (   0.221 %)
ABS virtual   = 0.4826E-06  +/-  0.8686E-09  (   0.180 %)
Born          = 0.1776E-05  +/-  0.2681E-08  (   0.151 %)
V  2          = -.5470E-09  +/-  0.1082E-08  ( 197.784 %)
B  2          = 0.1776E-05  +/-  0.2681E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9078E-06  +/-  0.1873E-08  (   0.206 %)
accumulated results Integral      = 0.5111E-06  +/-  0.2125E-08  (   0.416 %)
accumulated results Virtual       = -.5470E-09  +/-  0.1082E-08  ( 197.784 %)
accumulated results Virtual ratio = -.1945E+00  +/-  0.4295E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4826E-06  +/-  0.8686E-09  (   0.180 %)
accumulated results Born          = 0.1776E-05  +/-  0.2681E-08  (   0.151 %)
accumulated results V  2          = -.5470E-09  +/-  0.1082E-08  ( 197.784 %)
accumulated results B  2          = 0.1776E-05  +/-  0.2681E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                      3                    4
channel    1 :     1 T   210022    23899  0.3354E-06  0.1860E-06  0.8633E+00
channel    2 :     1 T   204315    24412  0.3338E-06  0.1952E-06  0.9237E+00
channel    3 :     2 T    71903     8586  0.1176E-06  0.6278E-07  0.9896E+00
channel    4 :     2 T    73631     8635  0.1209E-06  0.6713E-07  0.8706E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0777421842145118E-007  +/-   1.8731884573848921E-009
 Final result:   5.1105254897635676E-007  +/-   2.1246661963091378E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376425
   Stability unknown:                                          0
   Stable PS point:                                       376425
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376425
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376425
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.51803648    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.81270695    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.50578165    
 Time spent in Integrated_CT :    9.93817139    
 Time spent in Virtuals :    568.466187    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.55782318    
 Time spent in N1body_prefactor :   0.761253238    
 Time spent in Adding_alphas_pdf :    10.7691908    
 Time spent in Reweight_scale :    45.1163521    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.9265442    
 Time spent in Applying_cuts :    5.59273767    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    40.2202530    
 Time spent in Other_tasks :    24.4466553    
 Time spent in Total :    741.631592    
Time in seconds: 788



LOG file for integration channel /P0_uxu_emep/all_G1_21, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11356
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          21
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,  66297
  with seed                   49
 Ranmar initialization seeds         124       15561
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.440017D+04 0.440017D+04  1.00
 muF1, muF1_reference: 0.440017D+04 0.440017D+04  1.00
 muF2, muF2_reference: 0.440017D+04 0.440017D+04  1.00
 QES,  QES_reference:  0.440017D+04 0.440017D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4711251775058704E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4711251775058704E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6895083507680158E-006           OLP:   -3.6895083507680196E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8651728594785791E-006           OLP:   -7.8651728594785740E-006
  FINITE:
           OLP:   -7.6088406118166800E-005
           BORN:    1.0633011485286833E-003
  MOMENTA (Exyzm): 
           1   2200.0826093281717        0.0000000000000000        0.0000000000000000        2200.0826093281717        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2200.0826093281717       -0.0000000000000000       -0.0000000000000000       -2200.0826093281717        0.0000000000000000     
           3   2200.0826093281717       -2077.1996779322781       -16.005631852135831        724.80949608521928        0.0000000000000000     
           4   2200.0826093281717        2077.1996779322781        16.005631852135831       -724.80949608521928        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6895083507680158E-006           OLP:   -3.6895083507680196E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8651728594785808E-006           OLP:   -7.8651728594785740E-006
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9077E-06  +/-  0.1814E-08  (   0.200 %)
Integral      = 0.5164E-06  +/-  0.2070E-08  (   0.401 %)
Virtual       = 0.2242E-08  +/-  0.1084E-08  (  48.369 %)
Virtual ratio = -.1940E+00  +/-  0.4298E-03  (   0.222 %)
ABS virtual   = 0.4832E-06  +/-  0.8711E-09  (   0.180 %)
Born          = 0.1775E-05  +/-  0.2680E-08  (   0.151 %)
V  2          = 0.2242E-08  +/-  0.1084E-08  (  48.369 %)
B  2          = 0.1775E-05  +/-  0.2680E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9077E-06  +/-  0.1814E-08  (   0.200 %)
accumulated results Integral      = 0.5164E-06  +/-  0.2070E-08  (   0.401 %)
accumulated results Virtual       = 0.2242E-08  +/-  0.1084E-08  (  48.369 %)
accumulated results Virtual ratio = -.1940E+00  +/-  0.4298E-03  (   0.222 %)
accumulated results ABS virtual   = 0.4832E-06  +/-  0.8711E-09  (   0.180 %)
accumulated results Born          = 0.1775E-05  +/-  0.2680E-08  (   0.151 %)
accumulated results V  2          = 0.2242E-08  +/-  0.1084E-08  (  48.369 %)
accumulated results B  2          = 0.1775E-05  +/-  0.2680E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                            1                          2                       3                   4
channel    1 :     1 T   210408    23899  0.3363E-06  0.1857E-06  0.8884E+00
channel    2 :     1 T   204225    24412  0.3341E-06  0.1982E-06  0.9371E+00
channel    3 :     2 T    71553     8586  0.1176E-06  0.6398E-07  0.9551E+00
channel    4 :     2 T    73683     8635  0.1198E-06  0.6860E-07  0.9662E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0772280587310307E-007  +/-   1.8140152138210619E-009
 Final result:   5.1644804583425053E-007  +/-   2.0702545464378862E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376367
   Stability unknown:                                          0
   Stable PS point:                                       376367
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376367
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376367
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.55527592    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.87304783    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.52892876    
 Time spent in Integrated_CT :    9.88403320    
 Time spent in Virtuals :    568.000061    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.72278023    
 Time spent in N1body_prefactor :   0.785177827    
 Time spent in Adding_alphas_pdf :    10.8787870    
 Time spent in Reweight_scale :    46.0492706    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.2005329    
 Time spent in Applying_cuts :    5.74408150    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    40.5743942    
 Time spent in Other_tasks :    24.9141846    
 Time spent in Total :    743.710571    
Time in seconds: 804



LOG file for integration channel /P0_uxu_emep/all_G1_22, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       11319
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          22
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,  69454
  with seed                   49
 Ranmar initialization seeds         124       18718
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.429562D+04 0.429562D+04  1.00
 muF1, muF1_reference: 0.429562D+04 0.429562D+04  1.00
 muF2, muF2_reference: 0.429562D+04 0.429562D+04  1.00
 QES,  QES_reference:  0.429562D+04 0.429562D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4880583116233010E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4880583116233010E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5348990371462852E-006           OLP:   -3.5348990371462924E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7226482174258097E-006           OLP:   -7.7226482174258165E-006
  FINITE:
           OLP:   -6.4339405209450150E-005
           BORN:    1.0187433795476222E-003
  MOMENTA (Exyzm): 
           1   2147.8107532035442        0.0000000000000000        0.0000000000000000        2147.8107532035442        0.0000000000000000     
           2   2147.8107532035442       -0.0000000000000000       -0.0000000000000000       -2147.8107532035442        0.0000000000000000     
           3   2147.8107532035442       -1986.7641101112788       -292.05976732336961        761.94520450064817        0.0000000000000000     
           4   2147.8107532035442        1986.7641101112788        292.05976732336961       -761.94520450064817        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5348990371462852E-006           OLP:   -3.5348990371462924E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7226482174258097E-006           OLP:   -7.7226482174258165E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9080E-06  +/-  0.1784E-08  (   0.196 %)
Integral      = 0.5170E-06  +/-  0.2044E-08  (   0.395 %)
Virtual       = 0.8353E-09  +/-  0.1086E-08  ( 130.051 %)
Virtual ratio = -.1945E+00  +/-  0.4300E-03  (   0.221 %)
ABS virtual   = 0.4846E-06  +/-  0.8721E-09  (   0.180 %)
Born          = 0.1780E-05  +/-  0.2683E-08  (   0.151 %)
V  2          = 0.8353E-09  +/-  0.1086E-08  ( 130.051 %)
B  2          = 0.1780E-05  +/-  0.2683E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9080E-06  +/-  0.1784E-08  (   0.196 %)
accumulated results Integral      = 0.5170E-06  +/-  0.2044E-08  (   0.395 %)
accumulated results Virtual       = 0.8353E-09  +/-  0.1086E-08  ( 130.051 %)
accumulated results Virtual ratio = -.1945E+00  +/-  0.4300E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4846E-06  +/-  0.8721E-09  (   0.180 %)
accumulated results Born          = 0.1780E-05  +/-  0.2683E-08  (   0.151 %)
accumulated results V  2          = 0.8353E-09  +/-  0.1086E-08  ( 130.051 %)
accumulated results B  2          = 0.1780E-05  +/-  0.2683E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   208933    23899  0.3359E-06  0.1874E-06  0.8839E+00
channel    2 :     1 T   204909    24412  0.3345E-06  0.1996E-06  0.9687E+00
channel    3 :     2 T    72469     8586  0.1187E-06  0.6307E-07  0.9740E+00
channel    4 :     2 T    73560     8635  0.1188E-06  0.6699E-07  0.9696E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0796370169224082E-007  +/-   1.7839502226588548E-009
 Final result:   5.1700277305012856E-007  +/-   2.0439027296376108E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376609
   Stability unknown:                                          0
   Stable PS point:                                       376609
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376609
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376609
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.53324497    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.86623621    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.43692303    
 Time spent in Integrated_CT :    9.64862061    
 Time spent in Virtuals :    558.354553    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.65030098    
 Time spent in N1body_prefactor :   0.774232686    
 Time spent in Adding_alphas_pdf :    10.9525967    
 Time spent in Reweight_scale :    46.4191933    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.6540260    
 Time spent in Applying_cuts :    5.45393896    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    41.1577072    
 Time spent in Other_tasks :    23.7753296    
 Time spent in Total :    732.676941    
Time in seconds: 760



LOG file for integration channel /P0_uxu_emep/all_G1_23, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25839
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          23
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,  72611
  with seed                   49
 Ranmar initialization seeds         124       21875
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.432983D+04 0.432983D+04  1.00
 muF1, muF1_reference: 0.432983D+04 0.432983D+04  1.00
 muF2, muF2_reference: 0.432983D+04 0.432983D+04  1.00
 QES,  QES_reference:  0.432983D+04 0.432983D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4824651830526515E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4824651830526515E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.4952820878504386E-006           OLP:   -3.4952820878504382E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.6857804070732759E-006           OLP:   -7.6857804070732403E-006
  FINITE:
           OLP:   -6.2692644657708687E-005
           BORN:    1.0073259375248367E-003
  MOMENTA (Exyzm): 
           1   2164.9126202985417        0.0000000000000000        0.0000000000000000        2164.9126202985417        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2164.9126202985417       -0.0000000000000000       -0.0000000000000000       -2164.9126202985417        0.0000000000000000     
           3   2164.9126202985417       -2014.2924698313705       -130.76326747598461        782.54294922869144        0.0000000000000000     
           4   2164.9126202985417        2014.2924698313705        130.76326747598461       -782.54294922869144        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.4952820878504386E-006           OLP:   -3.4952820878504382E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.6857804070732759E-006           OLP:   -7.6857804070732403E-006
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9083E-06  +/-  0.1869E-08  (   0.206 %)
Integral      = 0.5147E-06  +/-  0.2120E-08  (   0.412 %)
Virtual       = -.5373E-10  +/-  0.1085E-08  ( ******* %)
Virtual ratio = -.1949E+00  +/-  0.4296E-03  (   0.220 %)
ABS virtual   = 0.4827E-06  +/-  0.8721E-09  (   0.181 %)
Born          = 0.1777E-05  +/-  0.2691E-08  (   0.151 %)
V  2          = -.5373E-10  +/-  0.1085E-08  ( ******* %)
B  2          = 0.1777E-05  +/-  0.2691E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9083E-06  +/-  0.1869E-08  (   0.206 %)
accumulated results Integral      = 0.5147E-06  +/-  0.2120E-08  (   0.412 %)
accumulated results Virtual       = -.5373E-10  +/-  0.1085E-08  ( ******* %)
accumulated results Virtual ratio = -.1949E+00  +/-  0.4296E-03  (   0.220 %)
accumulated results ABS virtual   = 0.4827E-06  +/-  0.8721E-09  (   0.181 %)
accumulated results Born          = 0.1777E-05  +/-  0.2691E-08  (   0.151 %)
accumulated results V  2          = -.5373E-10  +/-  0.1085E-08  ( ******* %)
accumulated results B  2          = 0.1777E-05  +/-  0.2691E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   209826    23899  0.3362E-06  0.1848E-06  0.8627E+00
channel    2 :     1 T   204562    24412  0.3342E-06  0.1984E-06  0.9146E+00
channel    3 :     2 T    72266     8586  0.1183E-06  0.6458E-07  0.9432E+00
channel    4 :     2 T    73218     8635  0.1195E-06  0.6693E-07  0.9507E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0826917279419401E-007  +/-   1.8694494682644989E-009
 Final result:   5.1470874771584987E-007  +/-   2.1201697063781383E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376321
   Stability unknown:                                          0
   Stable PS point:                                       376321
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376321
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376321
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.68686128    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    6.97243834    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.09112644    
 Time spent in Integrated_CT :    10.3481445    
 Time spent in Virtuals :    616.393188    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    9.98217583    
 Time spent in N1body_prefactor :   0.978962183    
 Time spent in Adding_alphas_pdf :    11.8150883    
 Time spent in Reweight_scale :    57.4959183    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    17.6802616    
 Time spent in Applying_cuts :    7.14667606    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    49.1851540    
 Time spent in Other_tasks :    28.9565430    
 Time spent in Total :    824.732483    
Time in seconds: 844



LOG file for integration channel /P0_uxu_emep/all_G1_24, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       25838
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          24
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,  75768
  with seed                   49
 Ranmar initialization seeds         124       25032
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.440687D+04 0.440687D+04  1.00
 muF1, muF1_reference: 0.440687D+04 0.440687D+04  1.00
 muF2, muF2_reference: 0.440687D+04 0.440687D+04  1.00
 QES,  QES_reference:  0.440687D+04 0.440687D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4700549806253250E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4700549806253250E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.3636387412771747E-006           OLP:   -3.3636387412771811E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.5626236186678882E-006           OLP:   -7.5626236186681795E-006
  FINITE:
           OLP:   -5.6389963654332890E-005
           BORN:    9.6938686589260331E-004
  MOMENTA (Exyzm): 
           1   2203.4364541211385        0.0000000000000000        0.0000000000000000        2203.4364541211385        0.0000000000000000     
           2   2203.4364541211385       -0.0000000000000000       -0.0000000000000000       -2203.4364541211385        0.0000000000000000     
           3   2203.4364541211385       -1481.2894123393080       -1393.9341400248220        847.26707567015967        0.0000000000000000     
           4   2203.4364541211385        1481.2894123393080        1393.9341400248220       -847.26707567015967        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.3636387412771747E-006           OLP:   -3.3636387412771811E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.5626236186678890E-006           OLP:   -7.5626236186681795E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9050E-06  +/-  0.1757E-08  (   0.194 %)
Integral      = 0.5144E-06  +/-  0.2019E-08  (   0.393 %)
Virtual       = 0.7117E-09  +/-  0.1084E-08  ( 152.299 %)
Virtual ratio = -.1945E+00  +/-  0.4296E-03  (   0.221 %)
ABS virtual   = 0.4827E-06  +/-  0.8711E-09  (   0.180 %)
Born          = 0.1775E-05  +/-  0.2673E-08  (   0.151 %)
V  2          = 0.7117E-09  +/-  0.1084E-08  ( 152.299 %)
B  2          = 0.1775E-05  +/-  0.2673E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9050E-06  +/-  0.1757E-08  (   0.194 %)
accumulated results Integral      = 0.5144E-06  +/-  0.2019E-08  (   0.393 %)
accumulated results Virtual       = 0.7117E-09  +/-  0.1084E-08  ( 152.299 %)
accumulated results Virtual ratio = -.1945E+00  +/-  0.4296E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4827E-06  +/-  0.8711E-09  (   0.180 %)
accumulated results Born          = 0.1775E-05  +/-  0.2673E-08  (   0.151 %)
accumulated results V  2          = 0.7117E-09  +/-  0.1084E-08  ( 152.299 %)
accumulated results B  2          = 0.1775E-05  +/-  0.2673E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                            1                          2                       3                   4
channel    1 :     1 T   209333    23899  0.3344E-06  0.1840E-06  0.8918E+00
channel    2 :     1 T   205361    24412  0.3351E-06  0.1997E-06  0.9762E+00
channel    3 :     2 T    71740     8586  0.1157E-06  0.6222E-07  0.1000E+01
channel    4 :     2 T    73438     8635  0.1198E-06  0.6843E-07  0.9704E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0500967664426498E-007  +/-   1.7570754312064711E-009
 Final result:   5.1441386660459053E-007  +/-   2.0193012945355169E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376463
   Stability unknown:                                          0
   Stable PS point:                                       376463
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376463
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376463
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.70371556    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.00524521    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.14594364    
 Time spent in Integrated_CT :    10.4830933    
 Time spent in Virtuals :    619.051575    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.0766602    
 Time spent in N1body_prefactor :   0.990242302    
 Time spent in Adding_alphas_pdf :    12.0398636    
 Time spent in Reweight_scale :    58.0026245    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    18.0270920    
 Time spent in Applying_cuts :    7.29475307    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    49.0477905    
 Time spent in Other_tasks :    29.2174072    
 Time spent in Total :    829.085999    
Time in seconds: 846



LOG file for integration channel /P0_uxu_emep/all_G1_25, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       26655
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          25
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,  78925
  with seed                   49
 Ranmar initialization seeds         124       28189
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.442336D+04 0.442336D+04  1.00
 muF1, muF1_reference: 0.442336D+04 0.442336D+04  1.00
 muF2, muF2_reference: 0.442336D+04 0.442336D+04  1.00
 QES,  QES_reference:  0.442336D+04 0.442336D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4674322753624442E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 alpha_s value used for the virtuals is (for the first PS point):    7.4913097844773555E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5737339271890613E-006           OLP:   -3.5737339271890587E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7586669874664252E-006           OLP:   -7.7586669874663896E-006
  FINITE:
           OLP:   -6.6242307018197507E-005
           BORN:    1.0299354353067243E-003
  MOMENTA (Exyzm): 
           1   2137.9422570528873        0.0000000000000000        0.0000000000000000        2137.9422570528873        0.0000000000000000     
           2   2137.9422570528873       -0.0000000000000000       -0.0000000000000000       -2137.9422570528873        0.0000000000000000     
           3   2137.9422570528873       -1669.1907914657122       -1109.1448915390922        744.57827375716408        0.0000000000000000     
           4   2137.9422570528873        1669.1907914657122        1109.1448915390922       -744.57827375716408        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5737339271890613E-006           OLP:   -3.5737339271890587E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7586669874664252E-006           OLP:   -7.7586669874663896E-006
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9094E-06  +/-  0.1781E-08  (   0.196 %)
Integral      = 0.5180E-06  +/-  0.2042E-08  (   0.394 %)
Virtual       = 0.2882E-09  +/-  0.1090E-08  ( 378.234 %)
Virtual ratio = -.1945E+00  +/-  0.4293E-03  (   0.221 %)
ABS virtual   = 0.4849E-06  +/-  0.8767E-09  (   0.181 %)
Born          = 0.1784E-05  +/-  0.2696E-08  (   0.151 %)
V  2          = 0.2882E-09  +/-  0.1090E-08  ( 378.234 %)
B  2          = 0.1784E-05  +/-  0.2696E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9094E-06  +/-  0.1781E-08  (   0.196 %)
accumulated results Integral      = 0.5180E-06  +/-  0.2042E-08  (   0.394 %)
accumulated results Virtual       = 0.2882E-09  +/-  0.1090E-08  ( 378.234 %)
accumulated results Virtual ratio = -.1945E+00  +/-  0.4293E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4849E-06  +/-  0.8767E-09  (   0.181 %)
accumulated results Born          = 0.1784E-05  +/-  0.2696E-08  (   0.151 %)
accumulated results V  2          = 0.2882E-09  +/-  0.1090E-08  ( 378.234 %)
accumulated results B  2          = 0.1784E-05  +/-  0.2696E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   209058    23899  0.3349E-06  0.1839E-06  0.8660E+00
channel    2 :     1 T   205216    24412  0.3369E-06  0.2025E-06  0.9824E+00
channel    3 :     2 T    71673     8586  0.1168E-06  0.6279E-07  0.1000E+01
channel    4 :     2 T    73924     8635  0.1207E-06  0.6881E-07  0.9779E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0936154977701963E-007  +/-   1.7814449758244337E-009
 Final result:   5.1803038067913719E-007  +/-   2.0423623101247150E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    377197
   Stability unknown:                                          0
   Stable PS point:                                       377197
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 377197
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       377197
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.16128588    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.66361475    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.06317854    
 Time spent in Integrated_CT :    8.36233521    
 Time spent in Virtuals :    500.552032    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.04428434    
 Time spent in N1body_prefactor :   0.633619368    
 Time spent in Adding_alphas_pdf :    9.88877583    
 Time spent in Reweight_scale :    37.5226517    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.2821941    
 Time spent in Applying_cuts :    4.76790476    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    32.2067032    
 Time spent in Other_tasks :    19.4093018    
 Time spent in Total :    645.557861    
Time in seconds: 667



LOG file for integration channel /P0_uxu_emep/all_G1_26, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       26668
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          26
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,  82082
  with seed                   49
 Ranmar initialization seeds         124        1265
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.429436D+04 0.429436D+04  1.00
 muF1, muF1_reference: 0.429436D+04 0.429436D+04  1.00
 muF2, muF2_reference: 0.429436D+04 0.429436D+04  1.00
 QES,  QES_reference:  0.429436D+04 0.429436D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4882648653967959E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 alpha_s value used for the virtuals is (for the first PS point):    7.4937468577332716E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6194697771598383E-006           OLP:   -3.6194697771598336E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8009101162453897E-006           OLP:   -7.8009101162453134E-006
  FINITE:
           OLP:   -6.8669694859101792E-005
           BORN:    1.0431163193648236E-003
  MOMENTA (Exyzm): 
           1   2130.5806693963827        0.0000000000000000        0.0000000000000000        2130.5806693963827        0.0000000000000000     
           2   2130.5806693963827       -0.0000000000000000       -0.0000000000000000       -2130.5806693963827        0.0000000000000000     
           3   2130.5806693963827       -1547.7304039579246       -1271.5554448932669        725.98301359746915        0.0000000000000000     
           4   2130.5806693963827        1547.7304039579246        1271.5554448932669       -725.98301359746915        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6194697771598383E-006           OLP:   -3.6194697771598336E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8009101162453880E-006           OLP:   -7.8009101162453134E-006
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9095E-06  +/-  0.1814E-08  (   0.199 %)
Integral      = 0.5158E-06  +/-  0.2071E-08  (   0.402 %)
Virtual       = 0.5047E-09  +/-  0.1087E-08  ( 215.316 %)
Virtual ratio = -.1943E+00  +/-  0.4299E-03  (   0.221 %)
ABS virtual   = 0.4843E-06  +/-  0.8728E-09  (   0.180 %)
Born          = 0.1779E-05  +/-  0.2688E-08  (   0.151 %)
V  2          = 0.5047E-09  +/-  0.1087E-08  ( 215.316 %)
B  2          = 0.1779E-05  +/-  0.2688E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9095E-06  +/-  0.1814E-08  (   0.199 %)
accumulated results Integral      = 0.5158E-06  +/-  0.2071E-08  (   0.402 %)
accumulated results Virtual       = 0.5047E-09  +/-  0.1087E-08  ( 215.316 %)
accumulated results Virtual ratio = -.1943E+00  +/-  0.4299E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4843E-06  +/-  0.8728E-09  (   0.180 %)
accumulated results Born          = 0.1779E-05  +/-  0.2688E-08  (   0.151 %)
accumulated results V  2          = 0.5047E-09  +/-  0.1087E-08  ( 215.316 %)
accumulated results B  2          = 0.1779E-05  +/-  0.2688E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   209690    23899  0.3357E-06  0.1865E-06  0.8734E+00
channel    2 :     1 T   205632    24412  0.3356E-06  0.2001E-06  0.9659E+00
channel    3 :     2 T    71550     8586  0.1177E-06  0.6167E-07  0.1000E+01
channel    4 :     2 T    72996     8635  0.1204E-06  0.6758E-07  0.9080E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0946225457413546E-007  +/-   1.8135221810801713E-009
 Final result:   5.1579309705342697E-007  +/-   2.0714774153986685E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376801
   Stability unknown:                                          0
   Stable PS point:                                       376801
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376801
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376801
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.22611856    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.55755329    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.05404425    
 Time spent in Integrated_CT :    8.75366211    
 Time spent in Virtuals :    533.163757    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.24514961    
 Time spent in N1body_prefactor :   0.592333436    
 Time spent in Adding_alphas_pdf :    10.0437174    
 Time spent in Reweight_scale :    37.0815048    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.5529785    
 Time spent in Applying_cuts :    4.78458786    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    34.6773720    
 Time spent in Other_tasks :    19.7972412    
 Time spent in Total :    681.530029    
Time in seconds: 707



LOG file for integration channel /P0_uxu_emep/all_G1_27, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       26673
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          27
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,  85239
  with seed                   49
 Ranmar initialization seeds         124        4422
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.432331D+04 0.432331D+04  1.00
 muF1, muF1_reference: 0.432331D+04 0.432331D+04  1.00
 muF2, muF2_reference: 0.432331D+04 0.432331D+04  1.00
 QES,  QES_reference:  0.432331D+04 0.432331D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4835265846961860E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4835265846961860E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5223327465667122E-006           OLP:   -3.5223327465667079E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7109668639701315E-006           OLP:   -7.7109668639701281E-006
  FINITE:
           OLP:   -6.4180075819841899E-005
           BORN:    1.0151218262305728E-003
  MOMENTA (Exyzm): 
           1   2161.6548846070687        0.0000000000000000        0.0000000000000000        2161.6548846070687        0.0000000000000000     
           2   2161.6548846070687       -0.0000000000000000       -0.0000000000000000       -2161.6548846070687        0.0000000000000000     
           3   2161.6548846070687       -1924.5044857860655       -611.49109654769904        771.43565070445334        0.0000000000000000     
           4   2161.6548846070687        1924.5044857860655        611.49109654769904       -771.43565070445334        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5223327465667122E-006           OLP:   -3.5223327465667079E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -7.7109668639701315E-006           OLP:   -7.7109668639701281E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9089E-06  +/-  0.1900E-08  (   0.209 %)
Integral      = 0.5170E-06  +/-  0.2147E-08  (   0.415 %)
Virtual       = 0.4578E-09  +/-  0.1085E-08  ( 237.123 %)
Virtual ratio = -.1946E+00  +/-  0.4299E-03  (   0.221 %)
ABS virtual   = 0.4839E-06  +/-  0.8718E-09  (   0.180 %)
Born          = 0.1779E-05  +/-  0.2697E-08  (   0.152 %)
V  2          = 0.4578E-09  +/-  0.1085E-08  ( 237.123 %)
B  2          = 0.1779E-05  +/-  0.2697E-08  (   0.152 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9089E-06  +/-  0.1900E-08  (   0.209 %)
accumulated results Integral      = 0.5170E-06  +/-  0.2147E-08  (   0.415 %)
accumulated results Virtual       = 0.4578E-09  +/-  0.1085E-08  ( 237.123 %)
accumulated results Virtual ratio = -.1946E+00  +/-  0.4299E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4839E-06  +/-  0.8718E-09  (   0.180 %)
accumulated results Born          = 0.1779E-05  +/-  0.2697E-08  (   0.152 %)
accumulated results V  2          = 0.4578E-09  +/-  0.1085E-08  ( 237.123 %)
accumulated results B  2          = 0.1779E-05  +/-  0.2697E-08  (   0.152 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                      3                    4
channel    1 :     1 T   209493    23899  0.3369E-06  0.1864E-06  0.7896E+00
channel    2 :     1 T   204825    24412  0.3341E-06  0.2001E-06  0.9431E+00
channel    3 :     2 T    72004     8586  0.1180E-06  0.6279E-07  0.9880E+00
channel    4 :     2 T    73546     8635  0.1200E-06  0.6780E-07  0.9643E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0888507603400918E-007  +/-   1.9001287410487545E-009
 Final result:   5.1704436754991517E-007  +/-   2.1467329472505648E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376671
   Stability unknown:                                          0
   Stable PS point:                                       376671
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376671
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376671
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.24726868    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.57625914    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.93558121    
 Time spent in Integrated_CT :    8.81036377    
 Time spent in Virtuals :    535.413208    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.20413113    
 Time spent in N1body_prefactor :   0.614540458    
 Time spent in Adding_alphas_pdf :    9.78174973    
 Time spent in Reweight_scale :    37.1210709    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.5187321    
 Time spent in Applying_cuts :    4.81813097    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    34.3339272    
 Time spent in Other_tasks :    19.9938965    
 Time spent in Total :    683.368835    
Time in seconds: 710



LOG file for integration channel /P0_uxu_emep/all_G1_28, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       26656
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          28
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,  88396
  with seed                   49
 Ranmar initialization seeds         124        7579
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.426090D+04 0.426090D+04  1.00
 muF1, muF1_reference: 0.426090D+04 0.426090D+04  1.00
 muF2, muF2_reference: 0.426090D+04 0.426090D+04  1.00
 QES,  QES_reference:  0.426090D+04 0.426090D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4937895105214730E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4937895105214730E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9571050854171022E-006           OLP:   -3.9571050854171141E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1049484410843865E-006           OLP:   -8.1049484410843729E-006
  FINITE:
           OLP:   -8.9394433816149228E-005
           BORN:    1.1404214280465951E-003
  MOMENTA (Exyzm): 
           1   2130.4520966377386        0.0000000000000000        0.0000000000000000        2130.4520966377386        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2130.4520966377386       -0.0000000000000000       -0.0000000000000000       -2130.4520966377386        0.0000000000000000     
           3   2130.4520966377386       -2033.9528677859109       -155.09213800091771        614.66112324101778        0.0000000000000000     
           4   2130.4520966377386        2033.9528677859109        155.09213800091771       -614.66112324101778        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9571050854171022E-006           OLP:   -3.9571050854171141E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1049484410843882E-006           OLP:   -8.1049484410843729E-006
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 Error #15 in genps_fks.f  -1.0728836059570312E-006           3
ABS integral  = 0.9067E-06  +/-  0.1788E-08  (   0.197 %)
Integral      = 0.5123E-06  +/-  0.2049E-08  (   0.400 %)
Virtual       = 0.1115E-09  +/-  0.1086E-08  ( 974.158 %)
Virtual ratio = -.1940E+00  +/-  0.4297E-03  (   0.222 %)
ABS virtual   = 0.4831E-06  +/-  0.8729E-09  (   0.181 %)
Born          = 0.1776E-05  +/-  0.2688E-08  (   0.151 %)
V  2          = 0.1115E-09  +/-  0.1086E-08  ( 974.158 %)
B  2          = 0.1776E-05  +/-  0.2688E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9067E-06  +/-  0.1788E-08  (   0.197 %)
accumulated results Integral      = 0.5123E-06  +/-  0.2049E-08  (   0.400 %)
accumulated results Virtual       = 0.1115E-09  +/-  0.1086E-08  ( 974.158 %)
accumulated results Virtual ratio = -.1940E+00  +/-  0.4297E-03  (   0.222 %)
accumulated results ABS virtual   = 0.4831E-06  +/-  0.8729E-09  (   0.181 %)
accumulated results Born          = 0.1776E-05  +/-  0.2688E-08  (   0.151 %)
accumulated results V  2          = 0.1115E-09  +/-  0.1086E-08  ( 974.158 %)
accumulated results B  2          = 0.1776E-05  +/-  0.2688E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                          2                     3                    4
channel    1 :     1 T   209182    23899  0.3343E-06  0.1832E-06  0.8799E+00
channel    2 :     1 T   204887    24412  0.3352E-06  0.1978E-06  0.9684E+00
channel    3 :     2 T    72217     8586  0.1180E-06  0.6262E-07  0.9895E+00
channel    4 :     2 T    73585     8635  0.1192E-06  0.6864E-07  0.9561E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0670083235419899E-007  +/-   1.7881923389051263E-009
 Final result:   5.1227161042149025E-007  +/-   2.0487304363775616E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376070
   Stability unknown:                                          0
   Stable PS point:                                       376070
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376070
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376070
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.14010870    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.62618113    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.02674866    
 Time spent in Integrated_CT :    8.42117310    
 Time spent in Virtuals :    497.780853    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.14667130    
 Time spent in N1body_prefactor :   0.648797572    
 Time spent in Adding_alphas_pdf :    9.80867004    
 Time spent in Reweight_scale :    36.8065948    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    12.4592905    
 Time spent in Applying_cuts :    4.84902143    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    31.8685474    
 Time spent in Other_tasks :    19.3123779    
 Time spent in Total :    640.894958    
Time in seconds: 663



LOG file for integration channel /P0_uxu_emep/all_G1_29, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       26667
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          29
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,  91553
  with seed                   49
 Ranmar initialization seeds         124       10736
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.440141D+04 0.440141D+04  1.00
 muF1, muF1_reference: 0.440141D+04 0.440141D+04  1.00
 muF2, muF2_reference: 0.440141D+04 0.440141D+04  1.00
 QES,  QES_reference:  0.440141D+04 0.440141D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4709265801693778E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4709265801693778E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.1949026184746219E-006           OLP:   -3.1949026184746185E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.4044736618809482E-006           OLP:   -7.4044736618809093E-006
  FINITE:
           OLP:   -4.6338156419689907E-005
           BORN:    9.2075780854492613E-004
  MOMENTA (Exyzm): 
           1   2200.7045239856075        0.0000000000000000        0.0000000000000000        2200.7045239856075        0.0000000000000000     
           2   2200.7045239856075       -0.0000000000000000       -0.0000000000000000       -2200.7045239856075        0.0000000000000000     
           3   2200.7045239856075       -1054.7382026534144       -1700.7195167198356        915.52217406374791        0.0000000000000000     
           4   2200.7045239856075        1054.7382026534144        1700.7195167198356       -915.52217406374791        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.1949026184746219E-006           OLP:   -3.1949026184746185E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -7.4044736618809474E-006           OLP:   -7.4044736618809093E-006
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9098E-06  +/-  0.2060E-08  (   0.226 %)
Integral      = 0.5132E-06  +/-  0.2292E-08  (   0.447 %)
Virtual       = 0.4895E-09  +/-  0.1084E-08  ( 221.354 %)
Virtual ratio = -.1941E+00  +/-  0.4298E-03  (   0.221 %)
ABS virtual   = 0.4830E-06  +/-  0.8703E-09  (   0.180 %)
Born          = 0.1776E-05  +/-  0.2680E-08  (   0.151 %)
V  2          = 0.4895E-09  +/-  0.1084E-08  ( 221.354 %)
B  2          = 0.1776E-05  +/-  0.2680E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9098E-06  +/-  0.2060E-08  (   0.226 %)
accumulated results Integral      = 0.5132E-06  +/-  0.2292E-08  (   0.447 %)
accumulated results Virtual       = 0.4895E-09  +/-  0.1084E-08  ( 221.354 %)
accumulated results Virtual ratio = -.1941E+00  +/-  0.4298E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4830E-06  +/-  0.8703E-09  (   0.180 %)
accumulated results Born          = 0.1776E-05  +/-  0.2680E-08  (   0.151 %)
accumulated results V  2          = 0.4895E-09  +/-  0.1084E-08  ( 221.354 %)
accumulated results B  2          = 0.1776E-05  +/-  0.2680E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                            1                          2                       3                   4
channel    1 :     1 T   209823    23899  0.3377E-06  0.1848E-06  0.6995E+00
channel    2 :     1 T   204476    24412  0.3360E-06  0.1986E-06  0.8992E+00
channel    3 :     2 T    71930     8586  0.1178E-06  0.6323E-07  0.9877E+00
channel    4 :     2 T    73641     8635  0.1182E-06  0.6657E-07  0.9636E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0980080473400679E-007  +/-   2.0598865855650508E-009
 Final result:   5.1320292472831147E-007  +/-   2.2915386385441769E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376223
   Stability unknown:                                          0
   Stable PS point:                                       376223
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376223
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376223
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.14992392    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.64173985    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.94383240    
 Time spent in Integrated_CT :    8.26370239    
 Time spent in Virtuals :    497.966248    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.11452389    
 Time spent in N1body_prefactor :   0.635519028    
 Time spent in Adding_alphas_pdf :    9.88759327    
 Time spent in Reweight_scale :    37.5572548    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    12.9798698    
 Time spent in Applying_cuts :    4.69964600    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    32.0833435    
 Time spent in Other_tasks :    19.2980957    
 Time spent in Total :    642.221191    
Time in seconds: 665



LOG file for integration channel /P0_uxu_emep/all_G1_30, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       26654
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          30
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,  94710
  with seed                   49
 Ranmar initialization seeds         124       13893
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.427995D+04 0.427995D+04  1.00
 muF1, muF1_reference: 0.427995D+04 0.427995D+04  1.00
 muF2, muF2_reference: 0.427995D+04 0.427995D+04  1.00
 QES,  QES_reference:  0.427995D+04 0.427995D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4906379418849214E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4906379418849214E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9379877934117142E-006           OLP:   -3.9379877934117109E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0881598611032888E-006           OLP:   -8.0881598611032735E-006
  FINITE:
           OLP:   -8.8683200639163532E-005
           BORN:    1.1349119030330914E-003
  MOMENTA (Exyzm): 
           1   2139.9769554752520        0.0000000000000000        0.0000000000000000        2139.9769554752520        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2139.9769554752520       -0.0000000000000000       -0.0000000000000000       -2139.9769554752520        0.0000000000000000     
           3   2139.9769554752520       -2043.5062869354451       -122.09183172159861        623.43966014948307        0.0000000000000000     
           4   2139.9769554752520        2043.5062869354451        122.09183172159861       -623.43966014948307        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9379877934117142E-006           OLP:   -3.9379877934117109E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0881598611032888E-006           OLP:   -8.0881598611032735E-006
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9065E-06  +/-  0.1817E-08  (   0.200 %)
Integral      = 0.5135E-06  +/-  0.2073E-08  (   0.404 %)
Virtual       = 0.4012E-09  +/-  0.1083E-08  ( 270.080 %)
Virtual ratio = -.1941E+00  +/-  0.4294E-03  (   0.221 %)
ABS virtual   = 0.4834E-06  +/-  0.8698E-09  (   0.180 %)
Born          = 0.1778E-05  +/-  0.2683E-08  (   0.151 %)
V  2          = 0.4012E-09  +/-  0.1083E-08  ( 270.080 %)
B  2          = 0.1778E-05  +/-  0.2683E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9065E-06  +/-  0.1817E-08  (   0.200 %)
accumulated results Integral      = 0.5135E-06  +/-  0.2073E-08  (   0.404 %)
accumulated results Virtual       = 0.4012E-09  +/-  0.1083E-08  ( 270.080 %)
accumulated results Virtual ratio = -.1941E+00  +/-  0.4294E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4834E-06  +/-  0.8698E-09  (   0.180 %)
accumulated results Born          = 0.1778E-05  +/-  0.2683E-08  (   0.151 %)
accumulated results V  2          = 0.4012E-09  +/-  0.1083E-08  ( 270.080 %)
accumulated results B  2          = 0.1778E-05  +/-  0.2683E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   209100    23899  0.3343E-06  0.1844E-06  0.8698E+00
channel    2 :     1 T   205457    24412  0.3353E-06  0.1984E-06  0.9803E+00
channel    3 :     2 T    71608     8586  0.1177E-06  0.6286E-07  0.9222E+00
channel    4 :     2 T    73704     8635  0.1192E-06  0.6781E-07  0.9276E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0654712706550835E-007  +/-   1.8165483735329495E-009
 Final result:   5.1348197267402654E-007  +/-   2.0728717326135385E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376946
   Stability unknown:                                          0
   Stable PS point:                                       376946
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376946
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376946
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.16442978    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.52284908    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.95889521    
 Time spent in Integrated_CT :    8.37756348    
 Time spent in Virtuals :    497.581299    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.13274956    
 Time spent in N1body_prefactor :   0.652880132    
 Time spent in Adding_alphas_pdf :    9.91489983    
 Time spent in Reweight_scale :    37.6416054    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.1204357    
 Time spent in Applying_cuts :    4.68320131    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    32.3551407    
 Time spent in Other_tasks :    19.4046021    
 Time spent in Total :    642.510620    
Time in seconds: 665



LOG file for integration channel /P0_uxu_emep/all_G1_31, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       26664
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          31
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 ,  97867
  with seed                   49
 Ranmar initialization seeds         124       17050
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.431863D+04 0.431863D+04  1.00
 muF1, muF1_reference: 0.431863D+04 0.431863D+04  1.00
 muF2, muF2_reference: 0.431863D+04 0.431863D+04  1.00
 QES,  QES_reference:  0.431863D+04 0.431863D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4842894871165452E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4842894871165466E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8062170327570810E-006           OLP:   -3.8062170327570777E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9709647217142349E-006           OLP:   -7.9709647217141824E-006
  FINITE:
           OLP:   -8.1429600569406593E-005
           BORN:    1.0969361111860818E-003
  MOMENTA (Exyzm): 
           1   2159.3169027461963        0.0000000000000000        0.0000000000000000        2159.3169027461963        0.0000000000000000     
           2   2159.3169027461963       -0.0000000000000000       -0.0000000000000000       -2159.3169027461963        0.0000000000000000     
           3   2159.3169027461963       -1950.1303794020885       -638.85059863668073        671.94560973344323        0.0000000000000000     
           4   2159.3169027461963        1950.1303794020885        638.85059863668073       -671.94560973344323        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8062170327570810E-006           OLP:   -3.8062170327570777E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9709647217142349E-006           OLP:   -7.9709647217141824E-006
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9071E-06  +/-  0.1823E-08  (   0.201 %)
Integral      = 0.5123E-06  +/-  0.2079E-08  (   0.406 %)
Virtual       = 0.9205E-09  +/-  0.1084E-08  ( 117.780 %)
Virtual ratio = -.1943E+00  +/-  0.4298E-03  (   0.221 %)
ABS virtual   = 0.4832E-06  +/-  0.8709E-09  (   0.180 %)
Born          = 0.1776E-05  +/-  0.2679E-08  (   0.151 %)
V  2          = 0.9205E-09  +/-  0.1084E-08  ( 117.780 %)
B  2          = 0.1776E-05  +/-  0.2679E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9071E-06  +/-  0.1823E-08  (   0.201 %)
accumulated results Integral      = 0.5123E-06  +/-  0.2079E-08  (   0.406 %)
accumulated results Virtual       = 0.9205E-09  +/-  0.1084E-08  ( 117.780 %)
accumulated results Virtual ratio = -.1943E+00  +/-  0.4298E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4832E-06  +/-  0.8709E-09  (   0.180 %)
accumulated results Born          = 0.1776E-05  +/-  0.2679E-08  (   0.151 %)
accumulated results V  2          = 0.9205E-09  +/-  0.1084E-08  ( 117.780 %)
accumulated results B  2          = 0.1776E-05  +/-  0.2679E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                            1                          2                       3                   4
channel    1 :     1 T   209463    23899  0.3357E-06  0.1853E-06  0.8611E+00
channel    2 :     1 T   204784    24412  0.3362E-06  0.1982E-06  0.9437E+00
channel    3 :     2 T    71848     8586  0.1171E-06  0.6135E-07  0.1000E+01
channel    4 :     2 T    73777     8635  0.1181E-06  0.6744E-07  0.9470E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0706892230435396E-007  +/-   1.8229910800637105E-009
 Final result:   5.1225667597544263E-007  +/-   2.0794664788810344E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376680
   Stability unknown:                                          0
   Stable PS point:                                       376680
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376680
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376680
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.14904451    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.54588318    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.04076338    
 Time spent in Integrated_CT :    8.39367676    
 Time spent in Virtuals :    498.306915    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.10316229    
 Time spent in N1body_prefactor :   0.633010268    
 Time spent in Adding_alphas_pdf :    9.87863445    
 Time spent in Reweight_scale :    37.5232697    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    12.8403320    
 Time spent in Applying_cuts :    4.70234013    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    32.3092117    
 Time spent in Other_tasks :    19.1644287    
 Time spent in Total :    642.590637    
Time in seconds: 665



LOG file for integration channel /P0_uxu_emep/all_G1_32, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       26657
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          32
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 101024
  with seed                   49
 Ranmar initialization seeds         124       20207
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.434062D+04 0.434062D+04  1.00
 muF1, muF1_reference: 0.434062D+04 0.434062D+04  1.00
 muF2, muF2_reference: 0.434062D+04 0.434062D+04  1.00
 QES,  QES_reference:  0.434062D+04 0.434062D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4807100742810204E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4807100742810204E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7623071061118186E-006           OLP:   -3.7623071061118191E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9313672035525879E-006           OLP:   -7.9313672035525642E-006
  FINITE:
           OLP:   -7.9228350950728555E-005
           BORN:    1.0842814507286799E-003
  MOMENTA (Exyzm): 
           1   2170.3122680838214        0.0000000000000000        0.0000000000000000        2170.3122680838214        0.0000000000000000     
           2   2170.3122680838214       -0.0000000000000000       -0.0000000000000000       -2170.3122680838214        0.0000000000000000     
           3   2170.3122680838214       -1155.3469910374488       -1702.6976525167511        690.10823456165247        0.0000000000000000     
           4   2170.3122680838214        1155.3469910374488        1702.6976525167511       -690.10823456165247        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7623071061118186E-006           OLP:   -3.7623071061118191E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9313672035525879E-006           OLP:   -7.9313672035525642E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9071E-06  +/-  0.2039E-08  (   0.225 %)
Integral      = 0.5138E-06  +/-  0.2271E-08  (   0.442 %)
Virtual       = 0.1548E-09  +/-  0.1082E-08  ( 699.087 %)
Virtual ratio = -.1944E+00  +/-  0.4297E-03  (   0.221 %)
ABS virtual   = 0.4826E-06  +/-  0.8693E-09  (   0.180 %)
Born          = 0.1775E-05  +/-  0.2675E-08  (   0.151 %)
V  2          = 0.1548E-09  +/-  0.1082E-08  ( 699.087 %)
B  2          = 0.1775E-05  +/-  0.2675E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9071E-06  +/-  0.2039E-08  (   0.225 %)
accumulated results Integral      = 0.5138E-06  +/-  0.2271E-08  (   0.442 %)
accumulated results Virtual       = 0.1548E-09  +/-  0.1082E-08  ( 699.087 %)
accumulated results Virtual ratio = -.1944E+00  +/-  0.4297E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4826E-06  +/-  0.8693E-09  (   0.180 %)
accumulated results Born          = 0.1775E-05  +/-  0.2675E-08  (   0.151 %)
accumulated results V  2          = 0.1548E-09  +/-  0.1082E-08  ( 699.087 %)
accumulated results B  2          = 0.1775E-05  +/-  0.2675E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                      3                    4
channel    1 :     1 T   209434    23899  0.3360E-06  0.1872E-06  0.8834E+00
channel    2 :     1 T   204666    24412  0.3347E-06  0.1969E-06  0.7514E+00
channel    3 :     2 T    71883     8586  0.1172E-06  0.6161E-07  0.9981E+00
channel    4 :     2 T    73890     8635  0.1193E-06  0.6811E-07  0.9632E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0710360154586297E-007  +/-   2.0389945459756265E-009
 Final result:   5.1382349133024135E-007  +/-   2.2705999162010469E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376535
   Stability unknown:                                          0
   Stable PS point:                                       376535
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376535
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376535
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.14143372    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.51261044    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.98806429    
 Time spent in Integrated_CT :    8.28216553    
 Time spent in Virtuals :    497.376617    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.06086397    
 Time spent in N1body_prefactor :   0.602710366    
 Time spent in Adding_alphas_pdf :    9.84604645    
 Time spent in Reweight_scale :    37.5960960    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    12.9021292    
 Time spent in Applying_cuts :    4.80014324    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    32.2585945    
 Time spent in Other_tasks :    19.3323975    
 Time spent in Total :    641.699890    
Time in seconds: 664



LOG file for integration channel /P0_uxu_emep/all_G1_33, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       26669
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          33
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 104181
  with seed                   49
 Ranmar initialization seeds         124       23364
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.439979D+04 0.439979D+04  1.00
 muF1, muF1_reference: 0.439979D+04 0.439979D+04  1.00
 muF2, muF2_reference: 0.439979D+04 0.439979D+04  1.00
 QES,  QES_reference:  0.439979D+04 0.439979D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4711857401024012E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4711857401024012E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.3740424547574311E-006           OLP:   -3.3740424547574239E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.5723806299495812E-006           OLP:   -7.5723806299495456E-006
  FINITE:
           OLP:   -5.6870119146155781E-005
           BORN:    9.7238517337447079E-004
  MOMENTA (Exyzm): 
           1   2199.8929966565497        0.0000000000000000        0.0000000000000000        2199.8929966565497        0.0000000000000000     
           2   2199.8929966565497       -0.0000000000000000       -0.0000000000000000       -2199.8929966565497        0.0000000000000000     
           3   2199.8929966565497       -1430.2146356131259       -1444.0885067320173        841.79788402029146        0.0000000000000000     
           4   2199.8929966565497        1430.2146356131259        1444.0885067320173       -841.79788402029146        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.3740424547574311E-006           OLP:   -3.3740424547574239E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.5723806299495820E-006           OLP:   -7.5723806299495456E-006
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9109E-06  +/-  0.2160E-08  (   0.237 %)
Integral      = 0.5143E-06  +/-  0.2382E-08  (   0.463 %)
Virtual       = 0.4094E-10  +/-  0.1084E-08  ( ******* %)
Virtual ratio = -.1948E+00  +/-  0.4296E-03  (   0.220 %)
ABS virtual   = 0.4829E-06  +/-  0.8708E-09  (   0.180 %)
Born          = 0.1776E-05  +/-  0.2677E-08  (   0.151 %)
V  2          = 0.4094E-10  +/-  0.1084E-08  ( ******* %)
B  2          = 0.1776E-05  +/-  0.2677E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9109E-06  +/-  0.2160E-08  (   0.237 %)
accumulated results Integral      = 0.5143E-06  +/-  0.2382E-08  (   0.463 %)
accumulated results Virtual       = 0.4094E-10  +/-  0.1084E-08  ( ******* %)
accumulated results Virtual ratio = -.1948E+00  +/-  0.4296E-03  (   0.220 %)
accumulated results ABS virtual   = 0.4829E-06  +/-  0.8708E-09  (   0.180 %)
accumulated results Born          = 0.1776E-05  +/-  0.2677E-08  (   0.151 %)
accumulated results V  2          = 0.4094E-10  +/-  0.1084E-08  ( ******* %)
accumulated results B  2          = 0.1776E-05  +/-  0.2677E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   209440    23899  0.3363E-06  0.1848E-06  0.7958E+00
channel    2 :     1 T   204764    24412  0.3365E-06  0.1987E-06  0.7801E+00
channel    3 :     2 T    71447     8586  0.1168E-06  0.6240E-07  0.7999E+00
channel    4 :     2 T    74220     8635  0.1212E-06  0.6837E-07  0.9296E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.1085972386866484E-007  +/-   2.1599625700039164E-009
 Final result:   5.1425889757685524E-007  +/-   2.3822175637609267E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376679
   Stability unknown:                                          0
   Stable PS point:                                       376679
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376679
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376679
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.24330533    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.70634651    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.15354776    
 Time spent in Integrated_CT :    8.95709229    
 Time spent in Virtuals :    540.439636    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.43895721    
 Time spent in N1body_prefactor :   0.616901517    
 Time spent in Adding_alphas_pdf :    10.1951351    
 Time spent in Reweight_scale :    38.1296806    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8518772    
 Time spent in Applying_cuts :    4.89268780    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.0815887    
 Time spent in Other_tasks :    20.2487183    
 Time spent in Total :    691.955505    
Time in seconds: 719



LOG file for integration channel /P0_uxu_emep/all_G1_34, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       26670
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          34
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 107338
  with seed                   49
 Ranmar initialization seeds         124       26521
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.433287D+04 0.433287D+04  1.00
 muF1, muF1_reference: 0.433287D+04 0.433287D+04  1.00
 muF2, muF2_reference: 0.433287D+04 0.433287D+04  1.00
 QES,  QES_reference:  0.433287D+04 0.433287D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4819691269889632E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4819691269889632E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.2475583333795683E-006           OLP:   -4.2475583333795683E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.3525360421276379E-006           OLP:   -8.3525360421276243E-006
  FINITE:
           OLP:   -1.0975790757164886E-004
           BORN:    1.2241288607965678E-003
  MOMENTA (Exyzm): 
           1   2166.4371422518843        0.0000000000000000        0.0000000000000000        2166.4371422518843        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2166.4371422518843       -0.0000000000000000       -0.0000000000000000       -2166.4371422518843        0.0000000000000000     
           3   2166.4371422518843       -1446.8104304488616       -1520.8214875451890        535.99577674990178        0.0000000000000000     
           4   2166.4371422518843        1446.8104304488616        1520.8214875451890       -535.99577674990178        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.2475583333795683E-006           OLP:   -4.2475583333795683E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.3525360421276379E-006           OLP:   -8.3525360421276243E-006
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9095E-06  +/-  0.1826E-08  (   0.201 %)
Integral      = 0.5186E-06  +/-  0.2081E-08  (   0.401 %)
Virtual       = 0.1830E-08  +/-  0.1084E-08  (  59.251 %)
Virtual ratio = -.1938E+00  +/-  0.4297E-03  (   0.222 %)
ABS virtual   = 0.4837E-06  +/-  0.8707E-09  (   0.180 %)
Born          = 0.1778E-05  +/-  0.2683E-08  (   0.151 %)
V  2          = 0.1830E-08  +/-  0.1084E-08  (  59.251 %)
B  2          = 0.1778E-05  +/-  0.2683E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9095E-06  +/-  0.1826E-08  (   0.201 %)
accumulated results Integral      = 0.5186E-06  +/-  0.2081E-08  (   0.401 %)
accumulated results Virtual       = 0.1830E-08  +/-  0.1084E-08  (  59.251 %)
accumulated results Virtual ratio = -.1938E+00  +/-  0.4297E-03  (   0.222 %)
accumulated results ABS virtual   = 0.4837E-06  +/-  0.8707E-09  (   0.180 %)
accumulated results Born          = 0.1778E-05  +/-  0.2683E-08  (   0.151 %)
accumulated results V  2          = 0.1830E-08  +/-  0.1084E-08  (  59.251 %)
accumulated results B  2          = 0.1778E-05  +/-  0.2683E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                            1                          2                       3                   4
channel    1 :     1 T   209845    23899  0.3376E-06  0.1859E-06  0.8604E+00
channel    2 :     1 T   204883    24412  0.3351E-06  0.2018E-06  0.9711E+00
channel    3 :     2 T    71789     8586  0.1176E-06  0.6283E-07  0.8990E+00
channel    4 :     2 T    73353     8635  0.1191E-06  0.6798E-07  0.9723E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0947115550247192E-007  +/-   1.8255639642362983E-009
 Final result:   5.1855095836892941E-007  +/-   2.0808108115657181E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376544
   Stability unknown:                                          0
   Stable PS point:                                       376544
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376544
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376544
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.27288282    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.58940315    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.04770565    
 Time spent in Integrated_CT :    8.93188477    
 Time spent in Virtuals :    541.210083    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.37910271    
 Time spent in N1body_prefactor :   0.623204112    
 Time spent in Adding_alphas_pdf :    10.0936480    
 Time spent in Reweight_scale :    38.0638847    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8553047    
 Time spent in Applying_cuts :    4.88772392    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.2057877    
 Time spent in Other_tasks :    20.2915039    
 Time spent in Total :    692.452087    
Time in seconds: 720



LOG file for integration channel /P0_uxu_emep/all_G1_35, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       26663
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          35
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 110495
  with seed                   49
 Ranmar initialization seeds         124       29678
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.441081D+04 0.441081D+04  1.00
 muF1, muF1_reference: 0.441081D+04 0.441081D+04  1.00
 muF2, muF2_reference: 0.441081D+04 0.441081D+04  1.00
 QES,  QES_reference:  0.441081D+04 0.441081D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4694276615423494E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4694276615423494E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5199316459650499E-006           OLP:   -3.5199316459650470E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7087346781126099E-006           OLP:   -7.7087346781128081E-006
  FINITE:
           OLP:   -6.5897578458179790E-005
           BORN:    1.0144298389019768E-003
  MOMENTA (Exyzm): 
           1   2205.4052332354245        0.0000000000000000        0.0000000000000000        2205.4052332354245        0.0000000000000000     
           2   2205.4052332354245       -0.0000000000000000       -0.0000000000000000       -2205.4052332354245        0.0000000000000000     
           3   2205.4052332354245       -1336.6287540069850       -1567.2840703997192        787.94445198581116        0.0000000000000000     
           4   2205.4052332354245        1336.6287540069850        1567.2840703997192       -787.94445198581116        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5199316459650499E-006           OLP:   -3.5199316459650470E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -7.7087346781126082E-006           OLP:   -7.7087346781128081E-006
 REAL 3: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
ABS integral  = 0.9059E-06  +/-  0.1803E-08  (   0.199 %)
Integral      = 0.5121E-06  +/-  0.2061E-08  (   0.403 %)
Virtual       = 0.1113E-09  +/-  0.1084E-08  ( 974.396 %)
Virtual ratio = -.1946E+00  +/-  0.4294E-03  (   0.221 %)
ABS virtual   = 0.4836E-06  +/-  0.8704E-09  (   0.180 %)
Born          = 0.1778E-05  +/-  0.2684E-08  (   0.151 %)
V  2          = 0.1113E-09  +/-  0.1084E-08  ( 974.396 %)
B  2          = 0.1778E-05  +/-  0.2684E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9059E-06  +/-  0.1803E-08  (   0.199 %)
accumulated results Integral      = 0.5121E-06  +/-  0.2061E-08  (   0.403 %)
accumulated results Virtual       = 0.1113E-09  +/-  0.1084E-08  ( 974.396 %)
accumulated results Virtual ratio = -.1946E+00  +/-  0.4294E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4836E-06  +/-  0.8704E-09  (   0.180 %)
accumulated results Born          = 0.1778E-05  +/-  0.2684E-08  (   0.151 %)
accumulated results V  2          = 0.1113E-09  +/-  0.1084E-08  ( 974.396 %)
accumulated results B  2          = 0.1778E-05  +/-  0.2684E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   209733    23899  0.3353E-06  0.1834E-06  0.8657E+00
channel    2 :     1 T   205182    24412  0.3341E-06  0.2007E-06  0.9717E+00
channel    3 :     2 T    71732     8586  0.1174E-06  0.6095E-07  0.9515E+00
channel    4 :     2 T    73227     8635  0.1191E-06  0.6704E-07  0.9675E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0589360458936549E-007  +/-   1.8031211123143441E-009
 Final result:   5.1210081577282400E-007  +/-   2.0612155123356992E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376656
   Stability unknown:                                          0
   Stable PS point:                                       376656
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376656
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376656
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.23352408    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.68028069    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.03877735    
 Time spent in Integrated_CT :    8.65332031    
 Time spent in Virtuals :    513.940613    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.30195999    
 Time spent in N1body_prefactor :   0.645427704    
 Time spent in Adding_alphas_pdf :    9.99666691    
 Time spent in Reweight_scale :    38.9141693    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.4098444    
 Time spent in Applying_cuts :    4.82966614    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    33.5495949    
 Time spent in Other_tasks :    20.0055542    
 Time spent in Total :    663.199402    
Time in seconds: 685



LOG file for integration channel /P0_uxu_emep/all_G1_36, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       26665
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          36
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 113652
  with seed                   49
 Ranmar initialization seeds         124        2754
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.432070D+04 0.432070D+04  1.00
 muF1, muF1_reference: 0.432070D+04 0.432070D+04  1.00
 muF2, muF2_reference: 0.432070D+04 0.432070D+04  1.00
 QES,  QES_reference:  0.432070D+04 0.432070D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4839528064590127E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4839528064590141E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8176546979841898E-006           OLP:   -3.8176546979841940E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9812356278268512E-006           OLP:   -7.9812356278267801E-006
  FINITE:
           OLP:   -8.2189018483892038E-005
           BORN:    1.1002323993134523E-003
  MOMENTA (Exyzm): 
           1   2160.3483218834335        0.0000000000000000        0.0000000000000000        2160.3483218834335        0.0000000000000000     
           2   2160.3483218834335       -0.0000000000000000       -0.0000000000000000       -2160.3483218834335        0.0000000000000000     
           3   2160.3483218834335       -1099.7271177291782       -1735.1784117517273        668.47663967142171        0.0000000000000000     
           4   2160.3483218834335        1099.7271177291782        1735.1784117517273       -668.47663967142171        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8176546979841898E-006           OLP:   -3.8176546979841940E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9812356278268512E-006           OLP:   -7.9812356278267801E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9106E-06  +/-  0.1851E-08  (   0.203 %)
Integral      = 0.5130E-06  +/-  0.2106E-08  (   0.411 %)
Virtual       = -.7052E-09  +/-  0.1087E-08  ( 154.120 %)
Virtual ratio = -.1947E+00  +/-  0.4296E-03  (   0.221 %)
ABS virtual   = 0.4837E-06  +/-  0.8736E-09  (   0.181 %)
Born          = 0.1778E-05  +/-  0.2681E-08  (   0.151 %)
V  2          = -.7052E-09  +/-  0.1087E-08  ( 154.120 %)
B  2          = 0.1778E-05  +/-  0.2681E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9106E-06  +/-  0.1851E-08  (   0.203 %)
accumulated results Integral      = 0.5130E-06  +/-  0.2106E-08  (   0.411 %)
accumulated results Virtual       = -.7052E-09  +/-  0.1087E-08  ( 154.120 %)
accumulated results Virtual ratio = -.1947E+00  +/-  0.4296E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4837E-06  +/-  0.8736E-09  (   0.181 %)
accumulated results Born          = 0.1778E-05  +/-  0.2681E-08  (   0.151 %)
accumulated results V  2          = -.7052E-09  +/-  0.1087E-08  ( 154.120 %)
accumulated results B  2          = 0.1778E-05  +/-  0.2681E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   209516    23899  0.3372E-06  0.1855E-06  0.8325E+00
channel    2 :     1 T   205111    24412  0.3343E-06  0.1991E-06  0.9817E+00
channel    3 :     2 T    71937     8586  0.1192E-06  0.6204E-07  0.9247E+00
channel    4 :     2 T    73308     8635  0.1198E-06  0.6638E-07  0.9424E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.1055923183120438E-007  +/-   1.8507783981148351E-009
 Final result:   5.1295335200992096E-007  +/-   2.1062574941997936E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376720
   Stability unknown:                                          0
   Stable PS point:                                       376720
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376720
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376720
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.03542411    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    4.70712566    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.29338074    
 Time spent in Integrated_CT :    7.43981934    
 Time spent in Virtuals :    423.545959    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.18307781    
 Time spent in N1body_prefactor :   0.563723326    
 Time spent in Adding_alphas_pdf :    8.35320759    
 Time spent in Reweight_scale :    32.3498688    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    11.7212696    
 Time spent in Applying_cuts :    4.32318878    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    28.2924500    
 Time spent in Other_tasks :    17.4335938    
 Time spent in Total :    550.242065    
Time in seconds: 572



LOG file for integration channel /P0_uxu_emep/all_G1_37, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       26666
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          37
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 116809
  with seed                   49
 Ranmar initialization seeds         124        5911
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.433368D+04 0.433368D+04  1.00
 muF1, muF1_reference: 0.433368D+04 0.433368D+04  1.00
 muF2, muF2_reference: 0.433368D+04 0.433368D+04  1.00
 QES,  QES_reference:  0.433368D+04 0.433368D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4818373854980663E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4818373854980663E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7444597795033813E-006           OLP:   -3.7444597795033796E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9152013565848799E-006           OLP:   -7.9152013565848816E-006
  FINITE:
           OLP:   -7.7961914555840843E-005
           BORN:    1.0791379245249874E-003
  MOMENTA (Exyzm): 
           1   2166.8422345674790        0.0000000000000000        0.0000000000000000        2166.8422345674790        0.0000000000000000     
           2   2166.8422345674790       -0.0000000000000000       -0.0000000000000000       -2166.8422345674790        0.0000000000000000     
           3   2166.8422345674790       -1731.7862848956552       -1101.3782606463960        695.04493374760239        0.0000000000000000     
           4   2166.8422345674790        1731.7862848956552        1101.3782606463960       -695.04493374760239        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7444597795033813E-006           OLP:   -3.7444597795033796E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9152013565848799E-006           OLP:   -7.9152013565848816E-006
 REAL 1: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9062E-06  +/-  0.1961E-08  (   0.216 %)
Integral      = 0.5139E-06  +/-  0.2200E-08  (   0.428 %)
Virtual       = 0.1137E-08  +/-  0.1080E-08  (  94.958 %)
Virtual ratio = -.1939E+00  +/-  0.4300E-03  (   0.222 %)
ABS virtual   = 0.4820E-06  +/-  0.8666E-09  (   0.180 %)
Born          = 0.1773E-05  +/-  0.2673E-08  (   0.151 %)
V  2          = 0.1137E-08  +/-  0.1080E-08  (  94.958 %)
B  2          = 0.1773E-05  +/-  0.2673E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9062E-06  +/-  0.1961E-08  (   0.216 %)
accumulated results Integral      = 0.5139E-06  +/-  0.2200E-08  (   0.428 %)
accumulated results Virtual       = 0.1137E-08  +/-  0.1080E-08  (  94.958 %)
accumulated results Virtual ratio = -.1939E+00  +/-  0.4300E-03  (   0.222 %)
accumulated results ABS virtual   = 0.4820E-06  +/-  0.8666E-09  (   0.180 %)
accumulated results Born          = 0.1773E-05  +/-  0.2673E-08  (   0.151 %)
accumulated results V  2          = 0.1137E-08  +/-  0.1080E-08  (  94.958 %)
accumulated results B  2          = 0.1773E-05  +/-  0.2673E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   209363    23899  0.3344E-06  0.1845E-06  0.8523E+00
channel    2 :     1 T   204920    24412  0.3360E-06  0.1992E-06  0.8125E+00
channel    3 :     2 T    71571     8586  0.1164E-06  0.6181E-07  0.9991E+00
channel    4 :     2 T    74014     8635  0.1194E-06  0.6834E-07  0.9873E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0620752345231387E-007  +/-   1.9613800328040062E-009
 Final result:   5.1386341688240496E-007  +/-   2.2004911619104674E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376253
   Stability unknown:                                          0
   Stable PS point:                                       376253
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376253
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376253
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.27101767    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.64328003    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.08872318    
 Time spent in Integrated_CT :    8.69848633    
 Time spent in Virtuals :    515.499512    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.28245258    
 Time spent in N1body_prefactor :   0.624612629    
 Time spent in Adding_alphas_pdf :    10.1870842    
 Time spent in Reweight_scale :    38.7346954    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.5587568    
 Time spent in Applying_cuts :    4.82549047    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    33.5149345    
 Time spent in Other_tasks :    19.9135132    
 Time spent in Total :    664.842651    
Time in seconds: 687



LOG file for integration channel /P0_uxu_emep/all_G1_38, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       26658
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          38
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 119966
  with seed                   49
 Ranmar initialization seeds         124        9068
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.428398D+04 0.428398D+04  1.00
 muF1, muF1_reference: 0.428398D+04 0.428398D+04  1.00
 muF2, muF2_reference: 0.428398D+04 0.428398D+04  1.00
 QES,  QES_reference:  0.428398D+04 0.428398D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4899745096584244E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4899745096584244E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6725844996718792E-006           OLP:   -3.6725844996718788E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8496984445984307E-006           OLP:   -7.8496984445985697E-006
  FINITE:
           OLP:   -7.2405860751196822E-005
           BORN:    1.0584237641735822E-003
  MOMENTA (Exyzm): 
           1   2141.9884296575083        0.0000000000000000        0.0000000000000000        2141.9884296575083        0.0000000000000000     
           2   2141.9884296575083       -0.0000000000000000       -0.0000000000000000       -2141.9884296575083        0.0000000000000000     
           3   2141.9884296575083       -1265.9883989682801       -1574.5482190844541        711.46729527248363        0.0000000000000000     
           4   2141.9884296575083        1265.9883989682801        1574.5482190844541       -711.46729527248363        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6725844996718792E-006           OLP:   -3.6725844996718788E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -7.8496984445984324E-006           OLP:   -7.8496984445985697E-006
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9077E-06  +/-  0.2060E-08  (   0.227 %)
Integral      = 0.5125E-06  +/-  0.2290E-08  (   0.447 %)
Virtual       = 0.2582E-09  +/-  0.1084E-08  ( 419.651 %)
Virtual ratio = -.1949E+00  +/-  0.4294E-03  (   0.220 %)
ABS virtual   = 0.4829E-06  +/-  0.8705E-09  (   0.180 %)
Born          = 0.1777E-05  +/-  0.2681E-08  (   0.151 %)
V  2          = 0.2582E-09  +/-  0.1084E-08  ( 419.651 %)
B  2          = 0.1777E-05  +/-  0.2681E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9077E-06  +/-  0.2060E-08  (   0.227 %)
accumulated results Integral      = 0.5125E-06  +/-  0.2290E-08  (   0.447 %)
accumulated results Virtual       = 0.2582E-09  +/-  0.1084E-08  ( 419.651 %)
accumulated results Virtual ratio = -.1949E+00  +/-  0.4294E-03  (   0.220 %)
accumulated results ABS virtual   = 0.4829E-06  +/-  0.8705E-09  (   0.180 %)
accumulated results Born          = 0.1777E-05  +/-  0.2681E-08  (   0.151 %)
accumulated results V  2          = 0.2582E-09  +/-  0.1084E-08  ( 419.651 %)
accumulated results B  2          = 0.1777E-05  +/-  0.2681E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                            1                          2                       3                   4
channel    1 :     1 T   209539    23899  0.3356E-06  0.1850E-06  0.7111E+00
channel    2 :     1 T   205075    24412  0.3351E-06  0.1997E-06  0.9044E+00
channel    3 :     2 T    71822     8586  0.1171E-06  0.6072E-07  0.9758E+00
channel    4 :     2 T    73435     8635  0.1198E-06  0.6702E-07  0.9112E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0767085185656995E-007  +/-   2.0597311126635717E-009
 Final result:   5.1245202940147648E-007  +/-   2.2901899771735899E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376624
   Stability unknown:                                          0
   Stable PS point:                                       376624
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376624
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376624
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.19988132    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.63491917    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.06843472    
 Time spent in Integrated_CT :    8.57702637    
 Time spent in Virtuals :    512.514038    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.50980711    
 Time spent in N1body_prefactor :   0.644141316    
 Time spent in Adding_alphas_pdf :    10.0632172    
 Time spent in Reweight_scale :    38.8570099    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.4219990    
 Time spent in Applying_cuts :    4.81181526    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    33.4878654    
 Time spent in Other_tasks :    19.9052734    
 Time spent in Total :    661.695496    
Time in seconds: 684



LOG file for integration channel /P0_uxu_emep/all_G1_39, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        9552
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          39
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 123123
  with seed                   49
 Ranmar initialization seeds         124       12225
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.436854D+04 0.436854D+04  1.00
 muF1, muF1_reference: 0.436854D+04 0.436854D+04  1.00
 muF2, muF2_reference: 0.436854D+04 0.436854D+04  1.00
 QES,  QES_reference:  0.436854D+04 0.436854D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4761964818031434E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4761964818031434E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0129785301769640E-006           OLP:   -4.0129785301769615E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1536614807572165E-006           OLP:   -8.1536614807572707E-006
  FINITE:
           OLP:   -9.5661070489209187E-005
           BORN:    1.1565239252731016E-003
  MOMENTA (Exyzm): 
           1   2184.2716858662434        0.0000000000000000        0.0000000000000000        2184.2716858662434        0.0000000000000000     
           2   2184.2716858662434       -0.0000000000000000       -0.0000000000000000       -2184.2716858662434        0.0000000000000000     
           3   2184.2716858662434       -1631.4728007360638       -1316.9404251289786        612.37832652412635        0.0000000000000000     
           4   2184.2716858662434        1631.4728007360638        1316.9404251289786       -612.37832652412635        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0129785301769640E-006           OLP:   -4.0129785301769615E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1536614807572165E-006           OLP:   -8.1536614807572707E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9109E-06  +/-  0.1793E-08  (   0.197 %)
Integral      = 0.5143E-06  +/-  0.2055E-08  (   0.400 %)
Virtual       = 0.1240E-08  +/-  0.1092E-08  (  88.031 %)
Virtual ratio = -.1946E+00  +/-  0.4299E-03  (   0.221 %)
ABS virtual   = 0.4854E-06  +/-  0.8781E-09  (   0.181 %)
Born          = 0.1782E-05  +/-  0.2693E-08  (   0.151 %)
V  2          = 0.1240E-08  +/-  0.1092E-08  (  88.031 %)
B  2          = 0.1782E-05  +/-  0.2693E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9109E-06  +/-  0.1793E-08  (   0.197 %)
accumulated results Integral      = 0.5143E-06  +/-  0.2055E-08  (   0.400 %)
accumulated results Virtual       = 0.1240E-08  +/-  0.1092E-08  (  88.031 %)
accumulated results Virtual ratio = -.1946E+00  +/-  0.4299E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4854E-06  +/-  0.8781E-09  (   0.181 %)
accumulated results Born          = 0.1782E-05  +/-  0.2693E-08  (   0.151 %)
accumulated results V  2          = 0.1240E-08  +/-  0.1092E-08  (  88.031 %)
accumulated results B  2          = 0.1782E-05  +/-  0.2693E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                      3                    4
channel    1 :     1 T   209238    23899  0.3361E-06  0.1839E-06  0.8710E+00
channel    2 :     1 T   204743    24412  0.3372E-06  0.2005E-06  0.9764E+00
channel    3 :     2 T    72369     8586  0.1179E-06  0.6126E-07  0.9819E+00
channel    4 :     2 T    73518     8635  0.1196E-06  0.6858E-07  0.9813E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.1088475328134644E-007  +/-   1.7927061996505819E-009
 Final result:   5.1431959909316022E-007  +/-   2.0550639062759712E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376809
   Stability unknown:                                          0
   Stable PS point:                                       376809
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376809
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376809
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.02707672    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.76852036    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.40345097    
 Time spent in Integrated_CT :    12.6671143    
 Time spent in Virtuals :    753.119873    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.9103146    
 Time spent in N1body_prefactor :    1.07036054    
 Time spent in Adding_alphas_pdf :    14.2835312    
 Time spent in Reweight_scale :    59.3277702    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.7546272    
 Time spent in Applying_cuts :    7.60212326    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    61.5474319    
 Time spent in Other_tasks :    34.2135620    
 Time spent in Total :    995.695740    
Time in seconds: 1008



LOG file for integration channel /P0_uxu_emep/all_G1_40, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        9550
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          40
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 126280
  with seed                   49
 Ranmar initialization seeds         124       15382
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.429389D+04 0.429389D+04  1.00
 muF1, muF1_reference: 0.429389D+04 0.429389D+04  1.00
 muF2, muF2_reference: 0.429389D+04 0.429389D+04  1.00
 QES,  QES_reference:  0.429389D+04 0.429389D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4883420573446643E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4883420573446643E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8680605102010386E-006           OLP:   -3.8680605102010394E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0262838034380621E-006           OLP:   -8.0262838034379418E-006
  FINITE:
           OLP:   -8.4671393376935169E-005
           BORN:    1.1147591473045608E-003
  MOMENTA (Exyzm): 
           1   2146.9474195475614        0.0000000000000000        0.0000000000000000        2146.9474195475614        0.0000000000000000     
           2   2146.9474195475614       -0.0000000000000000       -0.0000000000000000       -2146.9474195475614        0.0000000000000000     
           3   2146.9474195475614       -1147.2321686878295       -1695.1359021582909        647.88567405349318        0.0000000000000000     
           4   2146.9474195475614        1147.2321686878295        1695.1359021582909       -647.88567405349318        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8680605102010386E-006           OLP:   -3.8680605102010394E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0262838034380621E-006           OLP:   -8.0262838034379418E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9071E-06  +/-  0.1877E-08  (   0.207 %)
Integral      = 0.5157E-06  +/-  0.2126E-08  (   0.412 %)
Virtual       = 0.6061E-09  +/-  0.1084E-08  ( 178.819 %)
Virtual ratio = -.1947E+00  +/-  0.4299E-03  (   0.221 %)
ABS virtual   = 0.4834E-06  +/-  0.8703E-09  (   0.180 %)
Born          = 0.1777E-05  +/-  0.2682E-08  (   0.151 %)
V  2          = 0.6061E-09  +/-  0.1084E-08  ( 178.819 %)
B  2          = 0.1777E-05  +/-  0.2682E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9071E-06  +/-  0.1877E-08  (   0.207 %)
accumulated results Integral      = 0.5157E-06  +/-  0.2126E-08  (   0.412 %)
accumulated results Virtual       = 0.6061E-09  +/-  0.1084E-08  ( 178.819 %)
accumulated results Virtual ratio = -.1947E+00  +/-  0.4299E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4834E-06  +/-  0.8703E-09  (   0.180 %)
accumulated results Born          = 0.1777E-05  +/-  0.2682E-08  (   0.151 %)
accumulated results V  2          = 0.6061E-09  +/-  0.1084E-08  ( 178.819 %)
accumulated results B  2          = 0.1777E-05  +/-  0.2682E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   209443    23899  0.3351E-06  0.1853E-06  0.8002E+00
channel    2 :     1 T   205401    24412  0.3363E-06  0.2007E-06  0.9733E+00
channel    3 :     2 T    71670     8586  0.1172E-06  0.6341E-07  0.1000E+01
channel    4 :     2 T    73356     8635  0.1185E-06  0.6621E-07  0.8979E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0713315263480826E-007  +/-   1.8773213432529656E-009
 Final result:   5.1568651054161306E-007  +/-   2.1258246936302703E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376619
   Stability unknown:                                          0
   Stable PS point:                                       376619
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376619
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376619
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.01332378    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.73928738    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.41231203    
 Time spent in Integrated_CT :    12.7484131    
 Time spent in Virtuals :    753.757324    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.8930101    
 Time spent in N1body_prefactor :    1.05806017    
 Time spent in Adding_alphas_pdf :    14.1307068    
 Time spent in Reweight_scale :    59.0855255    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.9366245    
 Time spent in Applying_cuts :    7.68672991    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    62.6478806    
 Time spent in Other_tasks :    34.4918213    
 Time spent in Total :    997.601013    
Time in seconds: 1009



LOG file for integration channel /P0_uxu_emep/all_G1_41, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        9545
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          41
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 129437
  with seed                   49
 Ranmar initialization seeds         124       18539
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.431051D+04 0.431051D+04  1.00
 muF1, muF1_reference: 0.431051D+04 0.431051D+04  1.00
 muF2, muF2_reference: 0.431051D+04 0.431051D+04  1.00
 QES,  QES_reference:  0.431051D+04 0.431051D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4856164879981951E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4856164879981951E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6979045321565022E-006           OLP:   -3.6979045321565102E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8728441451195720E-006           OLP:   -7.8728441451195635E-006
  FINITE:
           OLP:   -7.4560848002304625E-005
           BORN:    1.0657208935095489E-003
  MOMENTA (Exyzm): 
           1   2155.2573053409833        0.0000000000000000        0.0000000000000000        2155.2573053409833        0.0000000000000000     
           2   2155.2573053409833       -0.0000000000000000       -0.0000000000000000       -2155.2573053409833        0.0000000000000000     
           3   2155.2573053409833       -1926.8838711937613       -657.39962009407395        707.16217281412071        0.0000000000000000     
           4   2155.2573053409833        1926.8838711937613        657.39962009407395       -707.16217281412071        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6979045321565022E-006           OLP:   -3.6979045321565102E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -7.8728441451195720E-006           OLP:   -7.8728441451195635E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9124E-06  +/-  0.1896E-08  (   0.208 %)
Integral      = 0.5161E-06  +/-  0.2147E-08  (   0.416 %)
Virtual       = 0.3849E-09  +/-  0.1089E-08  ( 282.999 %)
Virtual ratio = -.1943E+00  +/-  0.4290E-03  (   0.221 %)
ABS virtual   = 0.4847E-06  +/-  0.8757E-09  (   0.181 %)
Born          = 0.1782E-05  +/-  0.2692E-08  (   0.151 %)
V  2          = 0.3849E-09  +/-  0.1089E-08  ( 282.999 %)
B  2          = 0.1782E-05  +/-  0.2692E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9124E-06  +/-  0.1896E-08  (   0.208 %)
accumulated results Integral      = 0.5161E-06  +/-  0.2147E-08  (   0.416 %)
accumulated results Virtual       = 0.3849E-09  +/-  0.1089E-08  ( 282.999 %)
accumulated results Virtual ratio = -.1943E+00  +/-  0.4290E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4847E-06  +/-  0.8757E-09  (   0.181 %)
accumulated results Born          = 0.1782E-05  +/-  0.2692E-08  (   0.151 %)
accumulated results V  2          = 0.3849E-09  +/-  0.1089E-08  ( 282.999 %)
accumulated results B  2          = 0.1782E-05  +/-  0.2692E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   209452    23899  0.3378E-06  0.1855E-06  0.8522E+00
channel    2 :     1 T   204638    24412  0.3354E-06  0.1979E-06  0.9352E+00
channel    3 :     2 T    71969     8586  0.1181E-06  0.6419E-07  0.1000E+01
channel    4 :     2 T    73813     8635  0.1211E-06  0.6849E-07  0.8411E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.1236379824437929E-007  +/-   1.8964369549095076E-009
 Final result:   5.1606009746841230E-007  +/-   2.1465271150103667E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376966
   Stability unknown:                                          0
   Stable PS point:                                       376966
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376966
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376966
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.01807857    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.78170013    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.43074989    
 Time spent in Integrated_CT :    12.7761230    
 Time spent in Virtuals :    755.149048    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.9151764    
 Time spent in N1body_prefactor :    1.09132576    
 Time spent in Adding_alphas_pdf :    14.2237816    
 Time spent in Reweight_scale :    59.5094948    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    22.2915535    
 Time spent in Applying_cuts :    7.83180809    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    61.4957542    
 Time spent in Other_tasks :    34.8775024    
 Time spent in Total :    999.392029    
Time in seconds: 1011



LOG file for integration channel /P0_uxu_emep/all_G1_42, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        9551
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          42
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 132594
  with seed                   49
 Ranmar initialization seeds         124       21696
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.426184D+04 0.426184D+04  1.00
 muF1, muF1_reference: 0.426184D+04 0.426184D+04  1.00
 muF2, muF2_reference: 0.426184D+04 0.426184D+04  1.00
 QES,  QES_reference:  0.426184D+04 0.426184D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4936344194889898E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4936344194889898E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9885836305792269E-006           OLP:   -3.9885836305792303E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1324631732407884E-006           OLP:   -8.1324631732407409E-006
  FINITE:
           OLP:   -9.1385881845940881E-005
           BORN:    1.1494934154342728E-003
  MOMENTA (Exyzm): 
           1   2130.9196477304849        0.0000000000000000        0.0000000000000000        2130.9196477304849        0.0000000000000000     
           2   2130.9196477304849       -0.0000000000000000       -0.0000000000000000       -2130.9196477304849        0.0000000000000000     
           3   2130.9196477304849       -1771.2205383599612       -1018.6264225648949        604.97649609576308        0.0000000000000000     
           4   2130.9196477304849        1771.2205383599612        1018.6264225648949       -604.97649609576308        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9885836305792269E-006           OLP:   -3.9885836305792303E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1324631732407884E-006           OLP:   -8.1324631732407409E-006
 REAL 1: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9070E-06  +/-  0.1807E-08  (   0.199 %)
Integral      = 0.5140E-06  +/-  0.2065E-08  (   0.402 %)
Virtual       = -.8642E-09  +/-  0.1086E-08  ( 125.701 %)
Virtual ratio = -.1948E+00  +/-  0.4297E-03  (   0.221 %)
ABS virtual   = 0.4832E-06  +/-  0.8735E-09  (   0.181 %)
Born          = 0.1778E-05  +/-  0.2686E-08  (   0.151 %)
V  2          = -.8642E-09  +/-  0.1086E-08  ( 125.701 %)
B  2          = 0.1778E-05  +/-  0.2686E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9070E-06  +/-  0.1807E-08  (   0.199 %)
accumulated results Integral      = 0.5140E-06  +/-  0.2065E-08  (   0.402 %)
accumulated results Virtual       = -.8642E-09  +/-  0.1086E-08  ( 125.701 %)
accumulated results Virtual ratio = -.1948E+00  +/-  0.4297E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4832E-06  +/-  0.8735E-09  (   0.181 %)
accumulated results Born          = 0.1778E-05  +/-  0.2686E-08  (   0.151 %)
accumulated results V  2          = -.8642E-09  +/-  0.1086E-08  ( 125.701 %)
accumulated results B  2          = 0.1778E-05  +/-  0.2686E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                            1                          2                       3                   4
channel    1 :     1 T   209149    23899  0.3355E-06  0.1854E-06  0.8664E+00
channel    2 :     1 T   204985    24412  0.3348E-06  0.1991E-06  0.9578E+00
channel    3 :     2 T    71915     8586  0.1170E-06  0.6304E-07  0.1000E+01
channel    4 :     2 T    73824     8635  0.1197E-06  0.6641E-07  0.9473E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0695135605234981E-007  +/-   1.8071561160842838E-009
 Final result:   5.1396517985719223E-007  +/-   2.0647481804936846E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376528
   Stability unknown:                                          0
   Stable PS point:                                       376528
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376528
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376528
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.04978466    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.86576653    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.49838877    
 Time spent in Integrated_CT :    12.6664429    
 Time spent in Virtuals :    753.727905    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.9890604    
 Time spent in N1body_prefactor :    1.08017647    
 Time spent in Adding_alphas_pdf :    14.1667957    
 Time spent in Reweight_scale :    59.2619286    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    22.0184650    
 Time spent in Applying_cuts :    7.70726347    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    62.8731308    
 Time spent in Other_tasks :    34.5639648    
 Time spent in Total :    998.469116    
Time in seconds: 1010



LOG file for integration channel /P0_uxu_emep/all_G1_43, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        9553
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          43
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 135751
  with seed                   49
 Ranmar initialization seeds         124       24853
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.425495D+04 0.425495D+04  1.00
 muF1, muF1_reference: 0.425495D+04 0.425495D+04  1.00
 muF2, muF2_reference: 0.425495D+04 0.425495D+04  1.00
 QES,  QES_reference:  0.425495D+04 0.425495D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4947787529782373E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4947787529782373E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6196701500258283E-006           OLP:   -3.6196701500258300E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8010948744019734E-006           OLP:   -7.8010948744017820E-006
  FINITE:
           OLP:   -6.8542035508036922E-005
           BORN:    1.0431740660015801E-003
  MOMENTA (Exyzm): 
           1   2127.4726923428484        0.0000000000000000        0.0000000000000000        2127.4726923428484        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2127.4726923428484       -0.0000000000000000       -0.0000000000000000       -2127.4726923428484        0.0000000000000000     
           3   2127.4726923428484       -1485.9748846898835       -1338.8818916219766        724.85445368168496        0.0000000000000000     
           4   2127.4726923428484        1485.9748846898835        1338.8818916219766       -724.85445368168496        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6196701500258283E-006           OLP:   -3.6196701500258300E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8010948744019717E-006           OLP:   -7.8010948744017820E-006
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9071E-06  +/-  0.1879E-08  (   0.207 %)
Integral      = 0.5141E-06  +/-  0.2128E-08  (   0.414 %)
Virtual       = 0.1294E-08  +/-  0.1086E-08  (  83.889 %)
Virtual ratio = -.1948E+00  +/-  0.4301E-03  (   0.221 %)
ABS virtual   = 0.4834E-06  +/-  0.8728E-09  (   0.181 %)
Born          = 0.1776E-05  +/-  0.2679E-08  (   0.151 %)
V  2          = 0.1294E-08  +/-  0.1086E-08  (  83.889 %)
B  2          = 0.1776E-05  +/-  0.2679E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9071E-06  +/-  0.1879E-08  (   0.207 %)
accumulated results Integral      = 0.5141E-06  +/-  0.2128E-08  (   0.414 %)
accumulated results Virtual       = 0.1294E-08  +/-  0.1086E-08  (  83.889 %)
accumulated results Virtual ratio = -.1948E+00  +/-  0.4301E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4834E-06  +/-  0.8728E-09  (   0.181 %)
accumulated results Born          = 0.1776E-05  +/-  0.2679E-08  (   0.151 %)
accumulated results V  2          = 0.1294E-08  +/-  0.1086E-08  (  83.889 %)
accumulated results B  2          = 0.1776E-05  +/-  0.2679E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   210381    23899  0.3381E-06  0.1848E-06  0.7927E+00
channel    2 :     1 T   204759    24412  0.3349E-06  0.1995E-06  0.9488E+00
channel    3 :     2 T    71452     8586  0.1155E-06  0.6199E-07  0.1000E+01
channel    4 :     2 T    73279     8635  0.1185E-06  0.6776E-07  0.9670E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0705400975470064E-007  +/-   1.8787511684270036E-009
 Final result:   5.1405711599091002E-007  +/-   2.1277315537387878E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376104
   Stability unknown:                                          0
   Stable PS point:                                       376104
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376104
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376104
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.02530766    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    9.10145950    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.45496416    
 Time spent in Integrated_CT :    12.9427490    
 Time spent in Virtuals :    758.112854    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    12.4166870    
 Time spent in N1body_prefactor :    1.07756329    
 Time spent in Adding_alphas_pdf :    14.7118759    
 Time spent in Reweight_scale :    62.1296997    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.4023819    
 Time spent in Applying_cuts :    7.54745770    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    67.0627899    
 Time spent in Other_tasks :    34.5683594    
 Time spent in Total :    1010.55420    
Time in seconds: 1021



LOG file for integration channel /P0_uxu_emep/all_G1_44, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        9549
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          44
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 138908
  with seed                   49
 Ranmar initialization seeds         124       28010
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.436015D+04 0.436015D+04  1.00
 muF1, muF1_reference: 0.436015D+04 0.436015D+04  1.00
 muF2, muF2_reference: 0.436015D+04 0.436015D+04  1.00
 QES,  QES_reference:  0.436015D+04 0.436015D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4775495178718593E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4775495178718607E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8702643055901800E-006           OLP:   -3.8702643055901741E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0282379715694707E-006           OLP:   -8.0282379715693572E-006
  FINITE:
           OLP:   -8.6427974072535987E-005
           BORN:    1.1153942720815268E-003
  MOMENTA (Exyzm): 
           1   2180.0759844535055        0.0000000000000000        0.0000000000000000        2180.0759844535055        0.0000000000000000     
           2   2180.0759844535055       -0.0000000000000000       -0.0000000000000000       -2180.0759844535055        0.0000000000000000     
           3   2180.0759844535055       -1429.3120531154823       -1509.2857905636713        657.15656826384998        0.0000000000000000     
           4   2180.0759844535055        1429.3120531154823        1509.2857905636713       -657.15656826384998        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8702643055901800E-006           OLP:   -3.8702643055901741E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0282379715694690E-006           OLP:   -8.0282379715693572E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9078E-06  +/-  0.2008E-08  (   0.221 %)
Integral      = 0.5141E-06  +/-  0.2243E-08  (   0.436 %)
Virtual       = 0.1292E-09  +/-  0.1083E-08  ( 838.283 %)
Virtual ratio = -.1946E+00  +/-  0.4295E-03  (   0.221 %)
ABS virtual   = 0.4828E-06  +/-  0.8695E-09  (   0.180 %)
Born          = 0.1777E-05  +/-  0.2679E-08  (   0.151 %)
V  2          = 0.1292E-09  +/-  0.1083E-08  ( 838.283 %)
B  2          = 0.1777E-05  +/-  0.2679E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9078E-06  +/-  0.2008E-08  (   0.221 %)
accumulated results Integral      = 0.5141E-06  +/-  0.2243E-08  (   0.436 %)
accumulated results Virtual       = 0.1292E-09  +/-  0.1083E-08  ( 838.283 %)
accumulated results Virtual ratio = -.1946E+00  +/-  0.4295E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4828E-06  +/-  0.8695E-09  (   0.180 %)
accumulated results Born          = 0.1777E-05  +/-  0.2679E-08  (   0.151 %)
accumulated results V  2          = 0.1292E-09  +/-  0.1083E-08  ( 838.283 %)
accumulated results B  2          = 0.1777E-05  +/-  0.2679E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                            1                          2                      3                    4
channel    1 :     1 T   209338    23899  0.3353E-06  0.1848E-06  0.8523E+00
channel    2 :     1 T   205330    24412  0.3360E-06  0.1990E-06  0.7914E+00
channel    3 :     2 T    71501     8586  0.1178E-06  0.6237E-07  0.9889E+00
channel    4 :     2 T    73706     8635  0.1187E-06  0.6788E-07  0.9670E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0778030323171924E-007  +/-   2.0075759388243480E-009
 Final result:   5.1405712433133100E-007  +/-   2.2428221148841334E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376661
   Stability unknown:                                          0
   Stable PS point:                                       376661
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376661
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376661
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.03753567    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    9.14968872    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.40268183    
 Time spent in Integrated_CT :    12.8908691    
 Time spent in Virtuals :    764.298401    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    12.1971188    
 Time spent in N1body_prefactor :    1.09612775    
 Time spent in Adding_alphas_pdf :    14.4028673    
 Time spent in Reweight_scale :    61.0464554    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.4919338    
 Time spent in Applying_cuts :    7.55732441    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    64.1192322    
 Time spent in Other_tasks :    34.3436890    
 Time spent in Total :    1012.03400    
Time in seconds: 1023



LOG file for integration channel /P0_uxu_emep/all_G1_45, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        9546
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          45
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 142065
  with seed                   49
 Ranmar initialization seeds         124        1086
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.418048D+04 0.418048D+04  1.00
 muF1, muF1_reference: 0.418048D+04 0.418048D+04  1.00
 muF2, muF2_reference: 0.418048D+04 0.418048D+04  1.00
 QES,  QES_reference:  0.418048D+04 0.418048D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5072817573841530E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5072817573841530E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9932698991071468E-006           OLP:   -3.9932698991071409E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1365583827572747E-006           OLP:   -8.1365583827572290E-006
  FINITE:
           OLP:   -8.9570437873267021E-005
           BORN:    1.1508439787707167E-003
  MOMENTA (Exyzm): 
           1   2090.2377479846577        0.0000000000000000        0.0000000000000000        2090.2377479846577        0.0000000000000000     
           2   2090.2377479846577       -0.0000000000000000       -0.0000000000000000       -2090.2377479846577        0.0000000000000000     
           3   2090.2377479846577       -1879.6996540223231       -696.67442973899165        592.00320329892133        0.0000000000000000     
           4   2090.2377479846577        1879.6996540223231        696.67442973899165       -592.00320329892133        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9932698991071468E-006           OLP:   -3.9932698991071409E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1365583827572747E-006           OLP:   -8.1365583827572290E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9062E-06  +/-  0.1788E-08  (   0.197 %)
Integral      = 0.5141E-06  +/-  0.2047E-08  (   0.398 %)
Virtual       = 0.6401E-09  +/-  0.1086E-08  ( 169.591 %)
Virtual ratio = -.1950E+00  +/-  0.4304E-03  (   0.221 %)
ABS virtual   = 0.4830E-06  +/-  0.8728E-09  (   0.181 %)
Born          = 0.1775E-05  +/-  0.2683E-08  (   0.151 %)
V  2          = 0.6401E-09  +/-  0.1086E-08  ( 169.591 %)
B  2          = 0.1775E-05  +/-  0.2683E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9062E-06  +/-  0.1788E-08  (   0.197 %)
accumulated results Integral      = 0.5141E-06  +/-  0.2047E-08  (   0.398 %)
accumulated results Virtual       = 0.6401E-09  +/-  0.1086E-08  ( 169.591 %)
accumulated results Virtual ratio = -.1950E+00  +/-  0.4304E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4830E-06  +/-  0.8728E-09  (   0.181 %)
accumulated results Born          = 0.1775E-05  +/-  0.2683E-08  (   0.151 %)
accumulated results V  2          = 0.6401E-09  +/-  0.1086E-08  ( 169.591 %)
accumulated results B  2          = 0.1775E-05  +/-  0.2683E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   209124    23899  0.3332E-06  0.1849E-06  0.8835E+00
channel    2 :     1 T   204901    24412  0.3356E-06  0.2003E-06  0.9679E+00
channel    3 :     2 T    72111     8586  0.1178E-06  0.6186E-07  0.9759E+00
channel    4 :     2 T    73736     8635  0.1197E-06  0.6709E-07  0.9625E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0622440140424372E-007  +/-   1.7877590389237922E-009
 Final result:   5.1406777338156152E-007  +/-   2.0471715948496775E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376349
   Stability unknown:                                          0
   Stable PS point:                                       376349
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376349
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376349
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.00183892    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    9.11204243    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.39866018    
 Time spent in Integrated_CT :    12.8364868    
 Time spent in Virtuals :    761.189148    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    12.2283621    
 Time spent in N1body_prefactor :    1.07788253    
 Time spent in Adding_alphas_pdf :    14.5100784    
 Time spent in Reweight_scale :    61.1466484    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.1934586    
 Time spent in Applying_cuts :    7.47943354    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    63.9820633    
 Time spent in Other_tasks :    33.9342651    
 Time spent in Total :    1008.09033    
Time in seconds: 1019



LOG file for integration channel /P0_uxu_emep/all_G1_46, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        9544
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          46
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 145222
  with seed                   49
 Ranmar initialization seeds         124        4243
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.422208D+04 0.422208D+04  1.00
 muF1, muF1_reference: 0.422208D+04 0.422208D+04  1.00
 muF2, muF2_reference: 0.422208D+04 0.422208D+04  1.00
 QES,  QES_reference:  0.422208D+04 0.422208D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5002643498822588E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 REAL 1: keeping split order            1
 alpha_s value used for the virtuals is (for the first PS point):    7.4885414339166831E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6400479822245066E-006           OLP:   -3.6400479822245057E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8198475830132666E-006           OLP:   -7.8198475830131921E-006
  FINITE:
           OLP:   -7.0624901306203832E-005
           BORN:    1.0490468735199229E-003
  MOMENTA (Exyzm): 
           1   2146.3410354716898        0.0000000000000000        0.0000000000000000        2146.3410354716898        0.0000000000000000     
           2   2146.3410354716898       -0.0000000000000000       -0.0000000000000000       -2146.3410354716898        0.0000000000000000     
           3   2146.3410354716898       -1936.8192341980784       -575.40392628566974        724.16946649599220        0.0000000000000000     
           4   2146.3410354716898        1936.8192341980784        575.40392628566974       -724.16946649599220        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6400479822245066E-006           OLP:   -3.6400479822245057E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8198475830132666E-006           OLP:   -7.8198475830131921E-006
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9085E-06  +/-  0.1832E-08  (   0.202 %)
Integral      = 0.5142E-06  +/-  0.2088E-08  (   0.406 %)
Virtual       = 0.1657E-08  +/-  0.1087E-08  (  65.605 %)
Virtual ratio = -.1944E+00  +/-  0.4299E-03  (   0.221 %)
ABS virtual   = 0.4833E-06  +/-  0.8742E-09  (   0.181 %)
Born          = 0.1776E-05  +/-  0.2680E-08  (   0.151 %)
V  2          = 0.1657E-08  +/-  0.1087E-08  (  65.605 %)
B  2          = 0.1776E-05  +/-  0.2680E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9085E-06  +/-  0.1832E-08  (   0.202 %)
accumulated results Integral      = 0.5142E-06  +/-  0.2088E-08  (   0.406 %)
accumulated results Virtual       = 0.1657E-08  +/-  0.1087E-08  (  65.605 %)
accumulated results Virtual ratio = -.1944E+00  +/-  0.4299E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4833E-06  +/-  0.8742E-09  (   0.181 %)
accumulated results Born          = 0.1776E-05  +/-  0.2680E-08  (   0.151 %)
accumulated results V  2          = 0.1657E-08  +/-  0.1087E-08  (  65.605 %)
accumulated results B  2          = 0.1776E-05  +/-  0.2680E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   209619    23899  0.3351E-06  0.1841E-06  0.8694E+00
channel    2 :     1 T   204910    24412  0.3355E-06  0.1995E-06  0.9741E+00
channel    3 :     2 T    71726     8586  0.1177E-06  0.6301E-07  0.8752E+00
channel    4 :     2 T    73619     8635  0.1202E-06  0.6767E-07  0.9685E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0852397608673248E-007  +/-   1.8322266239309091E-009
 Final result:   5.1422788081499393E-007  +/-   2.0878321896069174E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376374
   Stability unknown:                                          0
   Stable PS point:                                       376374
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376374
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376374
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.99415874    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.99837303    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.32024908    
 Time spent in Integrated_CT :    12.8055420    
 Time spent in Virtuals :    757.244019    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    12.1893654    
 Time spent in N1body_prefactor :    1.09656835    
 Time spent in Adding_alphas_pdf :    14.4636374    
 Time spent in Reweight_scale :    61.2020149    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.9815712    
 Time spent in Applying_cuts :    7.57454348    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    63.8951569    
 Time spent in Other_tasks :    34.3091431    
 Time spent in Total :    1004.07434    
Time in seconds: 1015



LOG file for integration channel /P0_uxu_emep/all_G1_47, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        9540
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          47
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 148379
  with seed                   49
 Ranmar initialization seeds         124        7400
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.439887D+04 0.439887D+04  1.00
 muF1, muF1_reference: 0.439887D+04 0.439887D+04  1.00
 muF2, muF2_reference: 0.439887D+04 0.439887D+04  1.00
 QES,  QES_reference:  0.439887D+04 0.439887D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4713321177650019E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 alpha_s value used for the virtuals is (for the first PS point):    7.4812427912976057E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7958755969526926E-006           OLP:   -3.7958755969526985E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9616610851254444E-006           OLP:   -7.9616610851253292E-006
  FINITE:
           OLP:   -8.1233527112618717E-005
           BORN:    1.0939557518745348E-003
  MOMENTA (Exyzm): 
           1   2168.6716676367996        0.0000000000000000        0.0000000000000000        2168.6716676367996        0.0000000000000000     
           2   2168.6716676367996       -0.0000000000000000       -0.0000000000000000       -2168.6716676367996        0.0000000000000000     
           3   2168.6716676367996       -1242.3973070583356       -1643.0108447732580        678.30752419698206        0.0000000000000000     
           4   2168.6716676367996        1242.3973070583356        1643.0108447732580       -678.30752419698206        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7958755969526926E-006           OLP:   -3.7958755969526985E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9616610851254461E-006           OLP:   -7.9616610851253292E-006
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9068E-06  +/-  0.1798E-08  (   0.198 %)
Integral      = 0.5171E-06  +/-  0.2055E-08  (   0.397 %)
Virtual       = -.4307E-09  +/-  0.1084E-08  ( 251.691 %)
Virtual ratio = -.1944E+00  +/-  0.4291E-03  (   0.221 %)
ABS virtual   = 0.4835E-06  +/-  0.8705E-09  (   0.180 %)
Born          = 0.1779E-05  +/-  0.2687E-08  (   0.151 %)
V  2          = -.4307E-09  +/-  0.1084E-08  ( 251.691 %)
B  2          = 0.1779E-05  +/-  0.2687E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9068E-06  +/-  0.1798E-08  (   0.198 %)
accumulated results Integral      = 0.5171E-06  +/-  0.2055E-08  (   0.397 %)
accumulated results Virtual       = -.4307E-09  +/-  0.1084E-08  ( 251.691 %)
accumulated results Virtual ratio = -.1944E+00  +/-  0.4291E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4835E-06  +/-  0.8705E-09  (   0.180 %)
accumulated results Born          = 0.1779E-05  +/-  0.2687E-08  (   0.151 %)
accumulated results V  2          = -.4307E-09  +/-  0.1084E-08  ( 251.691 %)
accumulated results B  2          = 0.1779E-05  +/-  0.2687E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   209295    23899  0.3350E-06  0.1846E-06  0.8798E+00
channel    2 :     1 T   204875    24412  0.3351E-06  0.2010E-06  0.9375E+00
channel    3 :     2 T    71687     8586  0.1166E-06  0.6241E-07  0.9982E+00
channel    4 :     2 T    74013     8635  0.1201E-06  0.6913E-07  0.9897E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0675528310649898E-007  +/-   1.7982313212149236E-009
 Final result:   5.1712878172108423E-007  +/-   2.0553700998233177E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376745
   Stability unknown:                                          0
   Stable PS point:                                       376745
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376745
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376745
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.05496359    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.77236271    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.45326519    
 Time spent in Integrated_CT :    12.9097900    
 Time spent in Virtuals :    753.051392    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.9462824    
 Time spent in N1body_prefactor :    1.07339931    
 Time spent in Adding_alphas_pdf :    14.5088806    
 Time spent in Reweight_scale :    60.1290512    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.9672890    
 Time spent in Applying_cuts :    7.70919561    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    62.0284653    
 Time spent in Other_tasks :    35.0295410    
 Time spent in Total :    998.633850    
Time in seconds: 1010



LOG file for integration channel /P0_uxu_emep/all_G1_48, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        9547
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          48
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 151536
  with seed                   49
 Ranmar initialization seeds         124       10557
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.439100D+04 0.439100D+04  1.00
 muF1, muF1_reference: 0.439100D+04 0.439100D+04  1.00
 muF2, muF2_reference: 0.439100D+04 0.439100D+04  1.00
 QES,  QES_reference:  0.439100D+04 0.439100D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4725911979311319E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4725911979311319E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6591853104498273E-006           OLP:   -3.6591853104498257E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8374157613063265E-006           OLP:   -7.8374157613063706E-006
  FINITE:
           OLP:   -7.4006194986960466E-005
           BORN:    1.0545621728896934E-003
  MOMENTA (Exyzm): 
           1   2195.4981242981753        0.0000000000000000        0.0000000000000000        2195.4981242981753        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2195.4981242981753       -0.0000000000000000       -0.0000000000000000       -2195.4981242981753        0.0000000000000000     
           3   2195.4981242981753       -1553.6601469918965       -1366.6183636140058        733.96621834993311        0.0000000000000000     
           4   2195.4981242981753        1553.6601469918965        1366.6183636140058       -733.96621834993311        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6591853104498273E-006           OLP:   -3.6591853104498257E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8374157613063265E-006           OLP:   -7.8374157613063706E-006
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9082E-06  +/-  0.1998E-08  (   0.220 %)
Integral      = 0.5126E-06  +/-  0.2235E-08  (   0.436 %)
Virtual       = -.2835E-08  +/-  0.1089E-08  (  38.404 %)
Virtual ratio = -.1953E+00  +/-  0.4290E-03  (   0.220 %)
ABS virtual   = 0.4837E-06  +/-  0.8760E-09  (   0.181 %)
Born          = 0.1781E-05  +/-  0.2698E-08  (   0.151 %)
V  2          = -.2835E-08  +/-  0.1089E-08  (  38.404 %)
B  2          = 0.1781E-05  +/-  0.2698E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9082E-06  +/-  0.1998E-08  (   0.220 %)
accumulated results Integral      = 0.5126E-06  +/-  0.2235E-08  (   0.436 %)
accumulated results Virtual       = -.2835E-08  +/-  0.1089E-08  (  38.404 %)
accumulated results Virtual ratio = -.1953E+00  +/-  0.4290E-03  (   0.220 %)
accumulated results ABS virtual   = 0.4837E-06  +/-  0.8760E-09  (   0.181 %)
accumulated results Born          = 0.1781E-05  +/-  0.2698E-08  (   0.151 %)
accumulated results V  2          = -.2835E-08  +/-  0.1089E-08  (  38.404 %)
accumulated results B  2          = 0.1781E-05  +/-  0.2698E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                      3                    4
channel    1 :     1 T   209340    23899  0.3350E-06  0.1835E-06  0.8160E+00
channel    2 :     1 T   205224    24412  0.3362E-06  0.1999E-06  0.8355E+00
channel    3 :     2 T    71361     8586  0.1168E-06  0.6218E-07  0.1000E+01
channel    4 :     2 T    73945     8635  0.1203E-06  0.6693E-07  0.9365E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0822494421555919E-007  +/-   1.9978720437136181E-009
 Final result:   5.1257824543422979E-007  +/-   2.2350697188459757E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376657
   Stability unknown:                                          0
   Stable PS point:                                       376657
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376657
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376657
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.05131555    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.75378799    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.49248505    
 Time spent in Integrated_CT :    12.9224854    
 Time spent in Virtuals :    753.660217    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    12.0143890    
 Time spent in N1body_prefactor :    1.10335922    
 Time spent in Adding_alphas_pdf :    14.1713886    
 Time spent in Reweight_scale :    60.3159447    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    22.2273617    
 Time spent in Applying_cuts :    7.74212837    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    61.9503326    
 Time spent in Other_tasks :    35.3917236    
 Time spent in Total :    999.796875    
Time in seconds: 1011



LOG file for integration channel /P0_uxu_emep/all_G1_49, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        9543
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          49
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 154693
  with seed                   49
 Ranmar initialization seeds         124       13714
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.438269D+04 0.438269D+04  1.00
 muF1, muF1_reference: 0.438269D+04 0.438269D+04  1.00
 muF2, muF2_reference: 0.438269D+04 0.438269D+04  1.00
 QES,  QES_reference:  0.438269D+04 0.438269D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4739223296758431E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4739223296758431E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7912229181754956E-006           OLP:   -3.7912229181755041E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9574677604503399E-006           OLP:   -7.9574677604502924E-006
  FINITE:
           OLP:   -8.2016555383471141E-005
           BORN:    1.0926148689662473E-003
  MOMENTA (Exyzm): 
           1   2191.3452208087315        0.0000000000000000        0.0000000000000000        2191.3452208087315        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2191.3452208087315       -0.0000000000000000       -0.0000000000000000       -2191.3452208087315        0.0000000000000000     
           3   2191.3452208087315       -1423.7761293298202       -1517.5396011757366        686.97086486637102        0.0000000000000000     
           4   2191.3452208087315        1423.7761293298202        1517.5396011757366       -686.97086486637102        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7912229181754956E-006           OLP:   -3.7912229181755041E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9574677604503399E-006           OLP:   -7.9574677604502924E-006
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9077E-06  +/-  0.1862E-08  (   0.205 %)
Integral      = 0.5135E-06  +/-  0.2114E-08  (   0.412 %)
Virtual       = -.9754E-09  +/-  0.1082E-08  ( 110.952 %)
Virtual ratio = -.1950E+00  +/-  0.4295E-03  (   0.220 %)
ABS virtual   = 0.4825E-06  +/-  0.8691E-09  (   0.180 %)
Born          = 0.1774E-05  +/-  0.2669E-08  (   0.150 %)
V  2          = -.9754E-09  +/-  0.1082E-08  ( 110.952 %)
B  2          = 0.1774E-05  +/-  0.2669E-08  (   0.150 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9077E-06  +/-  0.1862E-08  (   0.205 %)
accumulated results Integral      = 0.5135E-06  +/-  0.2114E-08  (   0.412 %)
accumulated results Virtual       = -.9754E-09  +/-  0.1082E-08  ( 110.952 %)
accumulated results Virtual ratio = -.1950E+00  +/-  0.4295E-03  (   0.220 %)
accumulated results ABS virtual   = 0.4825E-06  +/-  0.8691E-09  (   0.180 %)
accumulated results Born          = 0.1774E-05  +/-  0.2669E-08  (   0.150 %)
accumulated results V  2          = -.9754E-09  +/-  0.1082E-08  ( 110.952 %)
accumulated results B  2          = 0.1774E-05  +/-  0.2669E-08  (   0.150 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   209429    23899  0.3353E-06  0.1855E-06  0.8644E+00
channel    2 :     1 T   204714    24412  0.3354E-06  0.1989E-06  0.9381E+00
channel    3 :     2 T    71995     8586  0.1169E-06  0.6103E-07  0.9871E+00
channel    4 :     2 T    73735     8635  0.1201E-06  0.6806E-07  0.8659E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0767508413842905E-007  +/-   1.8619269612349280E-009
 Final result:   5.1347261484715970E-007  +/-   2.1136209353764207E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376698
   Stability unknown:                                          0
   Stable PS point:                                       376698
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376698
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376698
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.03480625    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    9.04390049    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.30109262    
 Time spent in Integrated_CT :    12.7896118    
 Time spent in Virtuals :    759.720154    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    12.1542616    
 Time spent in N1body_prefactor :    1.07351494    
 Time spent in Adding_alphas_pdf :    14.3980131    
 Time spent in Reweight_scale :    62.1778450    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    22.2937851    
 Time spent in Applying_cuts :    7.58019447    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    63.8798676    
 Time spent in Other_tasks :    34.3187256    
 Time spent in Total :    1008.76575    
Time in seconds: 1019



LOG file for integration channel /P0_uxu_emep/all_G1_50, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        9541
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          50
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 157850
  with seed                   49
 Ranmar initialization seeds         124       16871
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.436825D+04 0.436825D+04  1.00
 muF1, muF1_reference: 0.436825D+04 0.436825D+04  1.00
 muF2, muF2_reference: 0.436825D+04 0.436825D+04  1.00
 QES,  QES_reference:  0.436825D+04 0.436825D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4762438946341520E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4762438946341520E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9630151799671821E-006           OLP:   -3.9630151799671830E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1101118374210907E-006           OLP:   -8.1101118374211144E-006
  FINITE:
           OLP:   -9.2479398075943838E-005
           BORN:    1.1421246930145969E-003
  MOMENTA (Exyzm): 
           1   2184.1244998130960        0.0000000000000000        0.0000000000000000        2184.1244998130960        0.0000000000000000     
           2   2184.1244998130960       -0.0000000000000000       -0.0000000000000000       -2184.1244998130960        0.0000000000000000     
           3   2184.1244998130960       -1934.8572788183458       -795.00575958035108        628.24595782347967        0.0000000000000000     
           4   2184.1244998130960        1934.8572788183458        795.00575958035108       -628.24595782347967        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9630151799671821E-006           OLP:   -3.9630151799671830E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1101118374210924E-006           OLP:   -8.1101118374211144E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9092E-06  +/-  0.1970E-08  (   0.217 %)
Integral      = 0.5134E-06  +/-  0.2210E-08  (   0.431 %)
Virtual       = -.1353E-08  +/-  0.1089E-08  (  80.540 %)
Virtual ratio = -.1949E+00  +/-  0.4298E-03  (   0.220 %)
ABS virtual   = 0.4839E-06  +/-  0.8766E-09  (   0.181 %)
Born          = 0.1780E-05  +/-  0.2705E-08  (   0.152 %)
V  2          = -.1353E-08  +/-  0.1089E-08  (  80.540 %)
B  2          = 0.1780E-05  +/-  0.2705E-08  (   0.152 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9092E-06  +/-  0.1970E-08  (   0.217 %)
accumulated results Integral      = 0.5134E-06  +/-  0.2210E-08  (   0.431 %)
accumulated results Virtual       = -.1353E-08  +/-  0.1089E-08  (  80.540 %)
accumulated results Virtual ratio = -.1949E+00  +/-  0.4298E-03  (   0.220 %)
accumulated results ABS virtual   = 0.4839E-06  +/-  0.8766E-09  (   0.181 %)
accumulated results Born          = 0.1780E-05  +/-  0.2705E-08  (   0.152 %)
accumulated results V  2          = -.1353E-08  +/-  0.1089E-08  (  80.540 %)
accumulated results B  2          = 0.1780E-05  +/-  0.2705E-08  (   0.152 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   209678    23899  0.3361E-06  0.1840E-06  0.7531E+00
channel    2 :     1 T   205215    24412  0.3357E-06  0.1991E-06  0.9451E+00
channel    3 :     2 T    71359     8586  0.1172E-06  0.6230E-07  0.9509E+00
channel    4 :     2 T    73619     8635  0.1202E-06  0.6801E-07  0.9498E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0920817322103909E-007  +/-   1.9696266974354747E-009
 Final result:   5.1340263053628381E-007  +/-   2.2102385122040333E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376621
   Stability unknown:                                          0
   Stable PS point:                                       376621
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376621
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376621
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.01007271    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    9.01283073    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.20161819    
 Time spent in Integrated_CT :    12.8200073    
 Time spent in Virtuals :    757.595703    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    12.1342545    
 Time spent in N1body_prefactor :    1.07950532    
 Time spent in Adding_alphas_pdf :    14.3082962    
 Time spent in Reweight_scale :    60.6823425    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.3445473    
 Time spent in Applying_cuts :    7.51743412    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    63.4883461    
 Time spent in Other_tasks :    33.7593384    
 Time spent in Total :    1002.95441    
Time in seconds: 1014



LOG file for integration channel /P0_uxu_emep/all_G1_51, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        9548
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          51
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 161007
  with seed                   49
 Ranmar initialization seeds         124       20028
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.430247D+04 0.430247D+04  1.00
 muF1, muF1_reference: 0.430247D+04 0.430247D+04  1.00
 muF2, muF2_reference: 0.430247D+04 0.430247D+04  1.00
 QES,  QES_reference:  0.430247D+04 0.430247D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4869344697184356E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4869344697184356E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8634483641947742E-006           OLP:   -3.8634483641947742E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0221763482893094E-006           OLP:   -8.0221763482893145E-006
  FINITE:
           OLP:   -8.4594563466190397E-005
           BORN:    1.1134299457743291E-003
  MOMENTA (Exyzm): 
           1   2151.2342232941514        0.0000000000000000        0.0000000000000000        2151.2342232941514        0.0000000000000000     
           2   2151.2342232941514       -0.0000000000000000       -0.0000000000000000       -2151.2342232941514        0.0000000000000000     
           3   2151.2342232941514       -1933.9371917937356       -681.40710698416524        650.67655268990609        0.0000000000000000     
           4   2151.2342232941514        1933.9371917937356        681.40710698416524       -650.67655268990609        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8634483641947742E-006           OLP:   -3.8634483641947742E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0221763482893111E-006           OLP:   -8.0221763482893145E-006
 REAL 3: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 Error #15 in genps_fks.f  -1.0821968317031860E-006           4
 Error #15 in genps_fks.f  -1.0284129530191422E-006           3
ABS integral  = 0.9073E-06  +/-  0.1819E-08  (   0.200 %)
Integral      = 0.5154E-06  +/-  0.2074E-08  (   0.402 %)
Virtual       = 0.8620E-09  +/-  0.1086E-08  ( 125.980 %)
Virtual ratio = -.1948E+00  +/-  0.4299E-03  (   0.221 %)
ABS virtual   = 0.4836E-06  +/-  0.8727E-09  (   0.180 %)
Born          = 0.1776E-05  +/-  0.2679E-08  (   0.151 %)
V  2          = 0.8620E-09  +/-  0.1086E-08  ( 125.980 %)
B  2          = 0.1776E-05  +/-  0.2679E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9073E-06  +/-  0.1819E-08  (   0.200 %)
accumulated results Integral      = 0.5154E-06  +/-  0.2074E-08  (   0.402 %)
accumulated results Virtual       = 0.8620E-09  +/-  0.1086E-08  ( 125.980 %)
accumulated results Virtual ratio = -.1948E+00  +/-  0.4299E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4836E-06  +/-  0.8727E-09  (   0.180 %)
accumulated results Born          = 0.1776E-05  +/-  0.2679E-08  (   0.151 %)
accumulated results V  2          = 0.8620E-09  +/-  0.1086E-08  ( 125.980 %)
accumulated results B  2          = 0.1776E-05  +/-  0.2679E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                      3                    4
channel    1 :     1 T   209495    23899  0.3355E-06  0.1854E-06  0.8672E+00
channel    2 :     1 T   205249    24412  0.3359E-06  0.1993E-06  0.9658E+00
channel    3 :     2 T    71969     8586  0.1169E-06  0.6235E-07  0.1000E+01
channel    4 :     2 T    73161     8635  0.1190E-06  0.6833E-07  0.8883E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0730367889097498E-007  +/-   1.8186149540200979E-009
 Final result:   5.1540690888201831E-007  +/-   2.0744211546292058E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376379
   Stability unknown:                                          0
   Stable PS point:                                       376379
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376379
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376379
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.02468324    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.75823784    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.47286797    
 Time spent in Integrated_CT :    12.9107056    
 Time spent in Virtuals :    748.374390    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.8512974    
 Time spent in N1body_prefactor :    1.04861569    
 Time spent in Adding_alphas_pdf :    14.0993938    
 Time spent in Reweight_scale :    59.1519012    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.9197674    
 Time spent in Applying_cuts :    7.72093201    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    62.0136871    
 Time spent in Other_tasks :    34.2979126    
 Time spent in Total :    991.644409    
Time in seconds: 1002



LOG file for integration channel /P0_uxu_emep/all_G1_52, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        9542
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          52
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 164164
  with seed                   49
 Ranmar initialization seeds         124       23185
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.442774D+04 0.442774D+04  1.00
 muF1, muF1_reference: 0.442774D+04 0.442774D+04  1.00
 muF2, muF2_reference: 0.442774D+04 0.442774D+04  1.00
 QES,  QES_reference:  0.442774D+04 0.442774D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4667382652107692E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4667382652107692E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5390186766914799E-006           OLP:   -3.5390186766914761E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7264761434085147E-006           OLP:   -7.7264761434084469E-006
  FINITE:
           OLP:   -6.7422049406754898E-005
           BORN:    1.0199306427392117E-003
  MOMENTA (Exyzm): 
           1   2213.8695938996225        0.0000000000000000        0.0000000000000000        2213.8695938996225        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2213.8695938996225       -0.0000000000000000       -0.0000000000000000       -2213.8695938996225        0.0000000000000000     
           3   2213.8695938996225       -1863.1080729342973       -903.12241874980907        783.84742400024732        0.0000000000000000     
           4   2213.8695938996225        1863.1080729342973        903.12241874980907       -783.84742400024732        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5390186766914799E-006           OLP:   -3.5390186766914761E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7264761434085130E-006           OLP:   -7.7264761434084469E-006
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9085E-06  +/-  0.1873E-08  (   0.206 %)
Integral      = 0.5149E-06  +/-  0.2124E-08  (   0.412 %)
Virtual       = 0.1508E-08  +/-  0.1085E-08  (  71.943 %)
Virtual ratio = -.1947E+00  +/-  0.4296E-03  (   0.221 %)
ABS virtual   = 0.4839E-06  +/-  0.8713E-09  (   0.180 %)
Born          = 0.1779E-05  +/-  0.2684E-08  (   0.151 %)
V  2          = 0.1508E-08  +/-  0.1085E-08  (  71.943 %)
B  2          = 0.1779E-05  +/-  0.2684E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9085E-06  +/-  0.1873E-08  (   0.206 %)
accumulated results Integral      = 0.5149E-06  +/-  0.2124E-08  (   0.412 %)
accumulated results Virtual       = 0.1508E-08  +/-  0.1085E-08  (  71.943 %)
accumulated results Virtual ratio = -.1947E+00  +/-  0.4296E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4839E-06  +/-  0.8713E-09  (   0.180 %)
accumulated results Born          = 0.1779E-05  +/-  0.2684E-08  (   0.151 %)
accumulated results V  2          = 0.1508E-08  +/-  0.1085E-08  (  71.943 %)
accumulated results B  2          = 0.1779E-05  +/-  0.2684E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   209310    23899  0.3363E-06  0.1849E-06  0.8556E+00
channel    2 :     1 T   204880    24412  0.3350E-06  0.1989E-06  0.9723E+00
channel    3 :     2 T    72050     8586  0.1178E-06  0.6232E-07  0.9396E+00
channel    4 :     2 T    73632     8635  0.1195E-06  0.6879E-07  0.8373E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0853690656808955E-007  +/-   1.8731944373596905E-009
 Final result:   5.1488853661832893E-007  +/-   2.1235992669318033E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376850
   Stability unknown:                                          0
   Stable PS point:                                       376850
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376850
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376850
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.05385780    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.75332832    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.43042660    
 Time spent in Integrated_CT :    12.9586792    
 Time spent in Virtuals :    750.972534    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.8485384    
 Time spent in N1body_prefactor :    1.09366393    
 Time spent in Adding_alphas_pdf :    14.1201191    
 Time spent in Reweight_scale :    59.6118050    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    22.1318474    
 Time spent in Applying_cuts :    7.85953426    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    62.5548935    
 Time spent in Other_tasks :    34.8062134    
 Time spent in Total :    996.195435    
Time in seconds: 1008



LOG file for integration channel /P0_uxu_emep/all_G1_53, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33369
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          53
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 167321
  with seed                   49
 Ranmar initialization seeds         124       26342
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.422576D+04 0.422576D+04  1.00
 muF1, muF1_reference: 0.422576D+04 0.422576D+04  1.00
 muF2, muF2_reference: 0.422576D+04 0.422576D+04  1.00
 QES,  QES_reference:  0.422576D+04 0.422576D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4996474425128523E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4996474425128523E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0011034347848473E-006           OLP:   -4.0011034347848498E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1433681761772319E-006           OLP:   -8.1433681761772793E-006
  FINITE:
           OLP:   -9.1235513394999734E-005
           BORN:    1.1531015715693358E-003
  MOMENTA (Exyzm): 
           1   2112.8807742932254        0.0000000000000000        0.0000000000000000        2112.8807742932254        0.0000000000000000     
           2   2112.8807742932254       -0.0000000000000000       -0.0000000000000000       -2112.8807742932254        0.0000000000000000     
           3   2112.8807742932254       -1643.9624230143143       -1185.9290045154605        596.00764621254120        0.0000000000000000     
           4   2112.8807742932254        1643.9624230143143        1185.9290045154605       -596.00764621254120        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0011034347848473E-006           OLP:   -4.0011034347848498E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1433681761772336E-006           OLP:   -8.1433681761772793E-006
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9092E-06  +/-  0.1856E-08  (   0.204 %)
Integral      = 0.5141E-06  +/-  0.2110E-08  (   0.410 %)
Virtual       = 0.2004E-08  +/-  0.1088E-08  (  54.304 %)
Virtual ratio = -.1945E+00  +/-  0.4304E-03  (   0.221 %)
ABS virtual   = 0.4848E-06  +/-  0.8746E-09  (   0.180 %)
Born          = 0.1779E-05  +/-  0.2687E-08  (   0.151 %)
V  2          = 0.2004E-08  +/-  0.1088E-08  (  54.304 %)
B  2          = 0.1779E-05  +/-  0.2687E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9092E-06  +/-  0.1856E-08  (   0.204 %)
accumulated results Integral      = 0.5141E-06  +/-  0.2110E-08  (   0.410 %)
accumulated results Virtual       = 0.2004E-08  +/-  0.1088E-08  (  54.304 %)
accumulated results Virtual ratio = -.1945E+00  +/-  0.4304E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4848E-06  +/-  0.8746E-09  (   0.180 %)
accumulated results Born          = 0.1779E-05  +/-  0.2687E-08  (   0.151 %)
accumulated results V  2          = 0.2004E-08  +/-  0.1088E-08  (  54.304 %)
accumulated results B  2          = 0.1779E-05  +/-  0.2687E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                            1                          2                       3                   4
channel    1 :     1 T   208860    23899  0.3352E-06  0.1844E-06  0.8160E+00
channel    2 :     1 T   205476    24412  0.3345E-06  0.2000E-06  0.9815E+00
channel    3 :     2 T    71998     8586  0.1191E-06  0.6190E-07  0.9671E+00
channel    4 :     2 T    73539     8635  0.1205E-06  0.6782E-07  0.9461E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0921814135743135E-007  +/-   1.8563249898563441E-009
 Final result:   5.1414066177204553E-007  +/-   2.1095841474539635E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376587
   Stability unknown:                                          0
   Stable PS point:                                       376587
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376587
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376587
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.24221754    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.80017519    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.15412378    
 Time spent in Integrated_CT :    9.23852539    
 Time spent in Virtuals :    536.626343    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.43726063    
 Time spent in N1body_prefactor :   0.629870117    
 Time spent in Adding_alphas_pdf :    10.4124928    
 Time spent in Reweight_scale :    38.3100586    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.6154575    
 Time spent in Applying_cuts :    5.05083895    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.1355591    
 Time spent in Other_tasks :    21.2701416    
 Time spent in Total :    690.923096    
Time in seconds: 797



LOG file for integration channel /P0_uxu_emep/all_G1_54, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33361
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          54
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 170478
  with seed                   49
 Ranmar initialization seeds         124       29499
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.419241D+04 0.419241D+04  1.00
 muF1, muF1_reference: 0.419241D+04 0.419241D+04  1.00
 muF2, muF2_reference: 0.419241D+04 0.419241D+04  1.00
 QES,  QES_reference:  0.419241D+04 0.419241D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5052597954736885E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5052597954736885E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9331546929587713E-006           OLP:   -3.9331546929587713E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0839187818896303E-006           OLP:   -8.0839187818896811E-006
  FINITE:
           OLP:   -8.6164297375922888E-005
           BORN:    1.1335190233391075E-003
  MOMENTA (Exyzm): 
           1   2096.2067117278611        0.0000000000000000        0.0000000000000000        2096.2067117278611        0.0000000000000000     
           2   2096.2067117278611       -0.0000000000000000       -0.0000000000000000       -2096.2067117278611        0.0000000000000000     
           3   2096.2067117278611       -1177.5814403131958       -1622.5314272187040        612.18975604829120        0.0000000000000000     
           4   2096.2067117278611        1177.5814403131958        1622.5314272187040       -612.18975604829120        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9331546929587713E-006           OLP:   -3.9331546929587713E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0839187818896286E-006           OLP:   -8.0839187818896811E-006
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9070E-06  +/-  0.1931E-08  (   0.213 %)
Integral      = 0.5149E-06  +/-  0.2174E-08  (   0.422 %)
Virtual       = 0.4805E-09  +/-  0.1084E-08  ( 225.518 %)
Virtual ratio = -.1945E+00  +/-  0.4301E-03  (   0.221 %)
ABS virtual   = 0.4825E-06  +/-  0.8709E-09  (   0.180 %)
Born          = 0.1773E-05  +/-  0.2668E-08  (   0.150 %)
V  2          = 0.4805E-09  +/-  0.1084E-08  ( 225.518 %)
B  2          = 0.1773E-05  +/-  0.2668E-08  (   0.150 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9070E-06  +/-  0.1931E-08  (   0.213 %)
accumulated results Integral      = 0.5149E-06  +/-  0.2174E-08  (   0.422 %)
accumulated results Virtual       = 0.4805E-09  +/-  0.1084E-08  ( 225.518 %)
accumulated results Virtual ratio = -.1945E+00  +/-  0.4301E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4825E-06  +/-  0.8709E-09  (   0.180 %)
accumulated results Born          = 0.1773E-05  +/-  0.2668E-08  (   0.150 %)
accumulated results V  2          = 0.4805E-09  +/-  0.1084E-08  ( 225.518 %)
accumulated results B  2          = 0.1773E-05  +/-  0.2668E-08  (   0.150 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   209591    23899  0.3359E-06  0.1860E-06  0.8371E+00
channel    2 :     1 T   204871    24412  0.3358E-06  0.1998E-06  0.8533E+00
channel    3 :     2 T    71852     8586  0.1166E-06  0.6205E-07  0.1000E+01
channel    4 :     2 T    73558     8635  0.1188E-06  0.6708E-07  0.9804E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0701640066044890E-007  +/-   1.9310949902135027E-009
 Final result:   5.1490964363544419E-007  +/-   2.1737007123518657E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376508
   Stability unknown:                                          0
   Stable PS point:                                       376508
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376508
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376508
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.23769295    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.72004128    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.13298559    
 Time spent in Integrated_CT :    9.27984619    
 Time spent in Virtuals :    536.493347    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.43253756    
 Time spent in N1body_prefactor :   0.607333899    
 Time spent in Adding_alphas_pdf :    10.4229641    
 Time spent in Reweight_scale :    38.2392616    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.7808676    
 Time spent in Applying_cuts :    5.03913736    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.1390686    
 Time spent in Other_tasks :    21.1093140    
 Time spent in Total :    690.634460    
Time in seconds: 796



LOG file for integration channel /P0_uxu_emep/all_G1_55, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33365
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          55
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 173635
  with seed                   49
 Ranmar initialization seeds         124        2575
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.443628D+04 0.443628D+04  1.00
 muF1, muF1_reference: 0.443628D+04 0.443628D+04  1.00
 muF2, muF2_reference: 0.443628D+04 0.443628D+04  1.00
 QES,  QES_reference:  0.443628D+04 0.443628D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4653864500790659E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4653864500790659E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8920700866490183E-006           OLP:   -3.8920700866490251E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0475954965817223E-006           OLP:   -8.0475954965817156E-006
  FINITE:
           OLP:   -8.9654629638580226E-005
           BORN:    1.1216786085947105E-003
  MOMENTA (Exyzm): 
           1   2218.1388887838561        0.0000000000000000        0.0000000000000000        2218.1388887838561        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2218.1388887838561       -0.0000000000000000       -0.0000000000000000       -2218.1388887838561        0.0000000000000000     
           3   2218.1388887838561       -1574.2687289353448       -1415.7755898106918        661.36039972753213        0.0000000000000000     
           4   2218.1388887838561        1574.2687289353448        1415.7755898106918       -661.36039972753213        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8920700866490183E-006           OLP:   -3.8920700866490251E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0475954965817206E-006           OLP:   -8.0475954965817156E-006
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9088E-06  +/-  0.1859E-08  (   0.205 %)
Integral      = 0.5120E-06  +/-  0.2113E-08  (   0.413 %)
Virtual       = -.2357E-09  +/-  0.1083E-08  ( 459.347 %)
Virtual ratio = -.1947E+00  +/-  0.4298E-03  (   0.221 %)
ABS virtual   = 0.4832E-06  +/-  0.8693E-09  (   0.180 %)
Born          = 0.1776E-05  +/-  0.2673E-08  (   0.151 %)
V  2          = -.2357E-09  +/-  0.1083E-08  ( 459.347 %)
B  2          = 0.1776E-05  +/-  0.2673E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9088E-06  +/-  0.1859E-08  (   0.205 %)
accumulated results Integral      = 0.5120E-06  +/-  0.2113E-08  (   0.413 %)
accumulated results Virtual       = -.2357E-09  +/-  0.1083E-08  ( 459.347 %)
accumulated results Virtual ratio = -.1947E+00  +/-  0.4298E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4832E-06  +/-  0.8693E-09  (   0.180 %)
accumulated results Born          = 0.1776E-05  +/-  0.2673E-08  (   0.151 %)
accumulated results V  2          = -.2357E-09  +/-  0.1083E-08  ( 459.347 %)
accumulated results B  2          = 0.1776E-05  +/-  0.2673E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                            1                          2                       3                   4
channel    1 :     1 T   210329    23899  0.3377E-06  0.1884E-06  0.8885E+00
channel    2 :     1 T   204481    24412  0.3340E-06  0.1956E-06  0.9108E+00
channel    3 :     2 T    71669     8586  0.1176E-06  0.6107E-07  0.9064E+00
channel    4 :     2 T    73397     8635  0.1195E-06  0.6693E-07  0.9484E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0883663789493955E-007  +/-   1.8593417695283444E-009
 Final result:   5.1196880530015910E-007  +/-   2.1128881334816771E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376744
   Stability unknown:                                          0
   Stable PS point:                                       376744
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376744
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376744
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.22580862    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.69150496    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.09980059    
 Time spent in Integrated_CT :    9.11938477    
 Time spent in Virtuals :    530.578979    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.44475603    
 Time spent in N1body_prefactor :   0.614580274    
 Time spent in Adding_alphas_pdf :    10.3891582    
 Time spent in Reweight_scale :    38.8894920    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.0875711    
 Time spent in Applying_cuts :    4.83251286    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.1407394    
 Time spent in Other_tasks :    20.8285522    
 Time spent in Total :    683.942810    
Time in seconds: 796



LOG file for integration channel /P0_uxu_emep/all_G1_56, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33359
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          56
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 176792
  with seed                   49
 Ranmar initialization seeds         124        5732
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.441152D+04 0.441152D+04  1.00
 muF1, muF1_reference: 0.441152D+04 0.441152D+04  1.00
 muF2, muF2_reference: 0.441152D+04 0.441152D+04  1.00
 QES,  QES_reference:  0.441152D+04 0.441152D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4693151123396237E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 alpha_s value used for the virtuals is (for the first PS point):    7.4736291852948500E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6385025250109396E-006           OLP:   -3.6385025250109324E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8184242714544103E-006           OLP:   -7.8184242714544239E-006
  FINITE:
           OLP:   -7.2587062735063849E-005
           BORN:    1.0486014791004075E-003
  MOMENTA (Exyzm): 
           1   2192.2589845697917        0.0000000000000000        0.0000000000000000        2192.2589845697917        0.0000000000000000     
           2   2192.2589845697917       -0.0000000000000000       -0.0000000000000000       -2192.2589845697917        0.0000000000000000     
           3   2192.2589845697917       -1865.6779136474477       -881.66529569142028        740.21056756063763        0.0000000000000000     
           4   2192.2589845697917        1865.6779136474477        881.66529569142028       -740.21056756063763        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6385025250109396E-006           OLP:   -3.6385025250109324E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8184242714544103E-006           OLP:   -7.8184242714544239E-006
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9086E-06  +/-  0.1838E-08  (   0.202 %)
Integral      = 0.5151E-06  +/-  0.2093E-08  (   0.406 %)
Virtual       = 0.1099E-08  +/-  0.1086E-08  (  98.807 %)
Virtual ratio = -.1945E+00  +/-  0.4298E-03  (   0.221 %)
ABS virtual   = 0.4834E-06  +/-  0.8723E-09  (   0.180 %)
Born          = 0.1777E-05  +/-  0.2678E-08  (   0.151 %)
V  2          = 0.1099E-08  +/-  0.1086E-08  (  98.807 %)
B  2          = 0.1777E-05  +/-  0.2678E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9086E-06  +/-  0.1838E-08  (   0.202 %)
accumulated results Integral      = 0.5151E-06  +/-  0.2093E-08  (   0.406 %)
accumulated results Virtual       = 0.1099E-08  +/-  0.1086E-08  (  98.807 %)
accumulated results Virtual ratio = -.1945E+00  +/-  0.4298E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4834E-06  +/-  0.8723E-09  (   0.180 %)
accumulated results Born          = 0.1777E-05  +/-  0.2678E-08  (   0.151 %)
accumulated results V  2          = 0.1099E-08  +/-  0.1086E-08  (  98.807 %)
accumulated results B  2          = 0.1777E-05  +/-  0.2678E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                            1                          2                      3                    4
channel    1 :     1 T   209613    23899  0.3375E-06  0.1861E-06  0.8477E+00
channel    2 :     1 T   204918    24412  0.3345E-06  0.1988E-06  0.9539E+00
channel    3 :     2 T    71492     8586  0.1169E-06  0.6221E-07  0.9628E+00
channel    4 :     2 T    73849     8635  0.1197E-06  0.6788E-07  0.9559E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0863208904431762E-007  +/-   1.8384995974448752E-009
 Final result:   5.1505093863805188E-007  +/-   2.0930617272771748E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376430
   Stability unknown:                                          0
   Stable PS point:                                       376430
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376430
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376430
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.22316420    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.85272121    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.02194262    
 Time spent in Integrated_CT :    9.08746338    
 Time spent in Virtuals :    528.815735    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.27325630    
 Time spent in N1body_prefactor :   0.618182540    
 Time spent in Adding_alphas_pdf :    10.3526897    
 Time spent in Reweight_scale :    39.0322151    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.3708801    
 Time spent in Applying_cuts :    4.87353230    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.1743202    
 Time spent in Other_tasks :    20.3155518    
 Time spent in Total :    682.011597    
Time in seconds: 801



LOG file for integration channel /P0_uxu_emep/all_G1_57, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33363
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          57
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 179949
  with seed                   49
 Ranmar initialization seeds         124        8889
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.434975D+04 0.434975D+04  1.00
 muF1, muF1_reference: 0.434975D+04 0.434975D+04  1.00
 muF2, muF2_reference: 0.434975D+04 0.434975D+04  1.00
 QES,  QES_reference:  0.434975D+04 0.434975D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4792302541607639E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 REAL 1: keeping split order            1
 alpha_s value used for the virtuals is (for the first PS point):    7.4891076110025073E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5434664764057597E-006           OLP:   -3.5434664764057584E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7306053119458398E-006           OLP:   -7.7306053119460550E-006
  FINITE:
           OLP:   -6.4715521956878048E-005
           BORN:    1.0212124803433019E-003
  MOMENTA (Exyzm): 
           1   2144.6201673399564        0.0000000000000000        0.0000000000000000        2144.6201673399564        0.0000000000000000     
           2   2144.6201673399564       -0.0000000000000000       -0.0000000000000000       -2144.6201673399564        0.0000000000000000     
           3   2144.6201673399564       -1417.0191301869947       -1420.3171466669482        757.72795232142232        0.0000000000000000     
           4   2144.6201673399564        1417.0191301869947        1420.3171466669482       -757.72795232142232        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5434664764057597E-006           OLP:   -3.5434664764057584E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7306053119458415E-006           OLP:   -7.7306053119460550E-006
 REAL 2: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
ABS integral  = 0.9080E-06  +/-  0.1782E-08  (   0.196 %)
Integral      = 0.5169E-06  +/-  0.2042E-08  (   0.395 %)
Virtual       = 0.1145E-08  +/-  0.1083E-08  (  94.628 %)
Virtual ratio = -.1941E+00  +/-  0.4293E-03  (   0.221 %)
ABS virtual   = 0.4831E-06  +/-  0.8700E-09  (   0.180 %)
Born          = 0.1778E-05  +/-  0.2682E-08  (   0.151 %)
V  2          = 0.1145E-08  +/-  0.1083E-08  (  94.628 %)
B  2          = 0.1778E-05  +/-  0.2682E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9080E-06  +/-  0.1782E-08  (   0.196 %)
accumulated results Integral      = 0.5169E-06  +/-  0.2042E-08  (   0.395 %)
accumulated results Virtual       = 0.1145E-08  +/-  0.1083E-08  (  94.628 %)
accumulated results Virtual ratio = -.1941E+00  +/-  0.4293E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4831E-06  +/-  0.8700E-09  (   0.180 %)
accumulated results Born          = 0.1778E-05  +/-  0.2682E-08  (   0.151 %)
accumulated results V  2          = 0.1145E-08  +/-  0.1083E-08  (  94.628 %)
accumulated results B  2          = 0.1778E-05  +/-  0.2682E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                            1                          2                      3                    4
channel    1 :     1 T   209467    23899  0.3359E-06  0.1849E-06  0.8728E+00
channel    2 :     1 T   205087    24412  0.3348E-06  0.2001E-06  0.9718E+00
channel    3 :     2 T    71986     8586  0.1175E-06  0.6211E-07  0.9917E+00
channel    4 :     2 T    73329     8635  0.1198E-06  0.6983E-07  0.9633E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0797559713729274E-007  +/-   1.7821380393858196E-009
 Final result:   5.1686812122153264E-007  +/-   2.0423915384309739E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376807
   Stability unknown:                                          0
   Stable PS point:                                       376807
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376807
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376807
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.24335110    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.73298740    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.03236818    
 Time spent in Integrated_CT :    8.95550537    
 Time spent in Virtuals :    528.089844    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.30216122    
 Time spent in N1body_prefactor :   0.612220407    
 Time spent in Adding_alphas_pdf :    10.3743629    
 Time spent in Reweight_scale :    39.0307617    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.3191090    
 Time spent in Applying_cuts :    4.84451389    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.2856216    
 Time spent in Other_tasks :    20.6527100    
 Time spent in Total :    681.475647    
Time in seconds: 788



LOG file for integration channel /P0_uxu_emep/all_G1_58, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33352
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          58
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 183106
  with seed                   49
 Ranmar initialization seeds         124       12046
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.427280D+04 0.427280D+04  1.00
 muF1, muF1_reference: 0.427280D+04 0.427280D+04  1.00
 muF2, muF2_reference: 0.427280D+04 0.427280D+04  1.00
 QES,  QES_reference:  0.427280D+04 0.427280D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4918193677882786E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4918193677882786E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7169126180326309E-006           OLP:   -3.7169126180326262E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8901730793549819E-006           OLP:   -7.8901730793550005E-006
  FINITE:
           OLP:   -7.4850992162251692E-005
           BORN:    1.0711989457652682E-003
  MOMENTA (Exyzm): 
           1   2136.4004916869858        0.0000000000000000        0.0000000000000000        2136.4004916869858        0.0000000000000000     
           2   2136.4004916869858       -0.0000000000000000       -0.0000000000000000       -2136.4004916869858        0.0000000000000000     
           3   2136.4004916869858       -1579.5579576804703       -1259.6899476438289        694.53938334250290        0.0000000000000000     
           4   2136.4004916869858        1579.5579576804703        1259.6899476438289       -694.53938334250290        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7169126180326309E-006           OLP:   -3.7169126180326262E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8901730793549819E-006           OLP:   -7.8901730793550005E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9068E-06  +/-  0.1780E-08  (   0.196 %)
Integral      = 0.5141E-06  +/-  0.2041E-08  (   0.397 %)
Virtual       = -.1272E-08  +/-  0.1082E-08  (  85.087 %)
Virtual ratio = -.1951E+00  +/-  0.4291E-03  (   0.220 %)
ABS virtual   = 0.4823E-06  +/-  0.8690E-09  (   0.180 %)
Born          = 0.1777E-05  +/-  0.2685E-08  (   0.151 %)
V  2          = -.1272E-08  +/-  0.1082E-08  (  85.087 %)
B  2          = 0.1777E-05  +/-  0.2685E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9068E-06  +/-  0.1780E-08  (   0.196 %)
accumulated results Integral      = 0.5141E-06  +/-  0.2041E-08  (   0.397 %)
accumulated results Virtual       = -.1272E-08  +/-  0.1082E-08  (  85.087 %)
accumulated results Virtual ratio = -.1951E+00  +/-  0.4291E-03  (   0.220 %)
accumulated results ABS virtual   = 0.4823E-06  +/-  0.8690E-09  (   0.180 %)
accumulated results Born          = 0.1777E-05  +/-  0.2685E-08  (   0.151 %)
accumulated results V  2          = -.1272E-08  +/-  0.1082E-08  (  85.087 %)
accumulated results B  2          = 0.1777E-05  +/-  0.2685E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                            1                          2                       3                   4
channel    1 :     1 T   209178    23899  0.3341E-06  0.1835E-06  0.8759E+00
channel    2 :     1 T   204995    24412  0.3345E-06  0.1998E-06  0.9699E+00
channel    3 :     2 T    71751     8586  0.1172E-06  0.6304E-07  0.9966E+00
channel    4 :     2 T    73946     8635  0.1210E-06  0.6770E-07  0.9576E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0675570241112541E-007  +/-   1.7796704440006212E-009
 Final result:   5.1410673655985220E-007  +/-   2.0405158549681810E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376674
   Stability unknown:                                          0
   Stable PS point:                                       376674
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376674
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376674
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.23404169    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.76410961    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.10131979    
 Time spent in Integrated_CT :    8.97113037    
 Time spent in Virtuals :    531.435913    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.28474903    
 Time spent in N1body_prefactor :   0.595905662    
 Time spent in Adding_alphas_pdf :    10.4465351    
 Time spent in Reweight_scale :    39.1318321    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.0801382    
 Time spent in Applying_cuts :    4.83952332    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    34.9679108    
 Time spent in Other_tasks :    20.4962769    
 Time spent in Total :    684.349365    
Time in seconds: 796



LOG file for integration channel /P0_uxu_emep/all_G1_59, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33350
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          59
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 186263
  with seed                   49
 Ranmar initialization seeds         124       15203
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.434715D+04 0.434715D+04  1.00
 muF1, muF1_reference: 0.434715D+04 0.434715D+04  1.00
 muF2, muF2_reference: 0.434715D+04 0.434715D+04  1.00
 QES,  QES_reference:  0.434715D+04 0.434715D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4796517742695676E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4796517742695676E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.4424019600712310E-006           OLP:   -3.4424019600712302E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.6364062616725332E-006           OLP:   -7.6364062616725128E-006
  FINITE:
           OLP:   -5.9886361445263607E-005
           BORN:    9.9208610195425980E-004
  MOMENTA (Exyzm): 
           1   2173.5758489906839        0.0000000000000000        0.0000000000000000        2173.5758489906839        0.0000000000000000     
           2   2173.5758489906839       -0.0000000000000000       -0.0000000000000000       -2173.5758489906839        0.0000000000000000     
           3   2173.5758489906839       -1997.5793647005050       -292.05023090123376        805.49072972246915        0.0000000000000000     
           4   2173.5758489906839        1997.5793647005050        292.05023090123376       -805.49072972246915        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.4424019600712310E-006           OLP:   -3.4424019600712302E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.6364062616725332E-006           OLP:   -7.6364062616725128E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9080E-06  +/-  0.1863E-08  (   0.205 %)
Integral      = 0.5147E-06  +/-  0.2114E-08  (   0.411 %)
Virtual       = 0.7538E-10  +/-  0.1089E-08  ( ******* %)
Virtual ratio = -.1945E+00  +/-  0.4296E-03  (   0.221 %)
ABS virtual   = 0.4846E-06  +/-  0.8755E-09  (   0.181 %)
Born          = 0.1780E-05  +/-  0.2685E-08  (   0.151 %)
V  2          = 0.7538E-10  +/-  0.1089E-08  ( ******* %)
B  2          = 0.1780E-05  +/-  0.2685E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9080E-06  +/-  0.1863E-08  (   0.205 %)
accumulated results Integral      = 0.5147E-06  +/-  0.2114E-08  (   0.411 %)
accumulated results Virtual       = 0.7538E-10  +/-  0.1089E-08  ( ******* %)
accumulated results Virtual ratio = -.1945E+00  +/-  0.4296E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4846E-06  +/-  0.8755E-09  (   0.181 %)
accumulated results Born          = 0.1780E-05  +/-  0.2685E-08  (   0.151 %)
accumulated results V  2          = 0.7538E-10  +/-  0.1089E-08  ( ******* %)
accumulated results B  2          = 0.1780E-05  +/-  0.2685E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   209778    23899  0.3363E-06  0.1868E-06  0.7980E+00
channel    2 :     1 T   204991    24412  0.3356E-06  0.1995E-06  0.9822E+00
channel    3 :     2 T    71651     8586  0.1172E-06  0.6165E-07  0.1000E+01
channel    4 :     2 T    73448     8635  0.1189E-06  0.6681E-07  0.9480E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0802082736214447E-007  +/-   1.8629945081875199E-009
 Final result:   5.1472132860619013E-007  +/-   2.1142842791672135E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376775
   Stability unknown:                                          0
   Stable PS point:                                       376775
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376775
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376775
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.24486995    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.65133429    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.03576279    
 Time spent in Integrated_CT :    9.03515625    
 Time spent in Virtuals :    528.823669    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.39167356    
 Time spent in N1body_prefactor :   0.610352814    
 Time spent in Adding_alphas_pdf :    10.3090057    
 Time spent in Reweight_scale :    38.9029083    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.0339994    
 Time spent in Applying_cuts :    4.88644171    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.0973434    
 Time spent in Other_tasks :    20.2484131    
 Time spent in Total :    681.270874    
Time in seconds: 787



LOG file for integration channel /P0_uxu_emep/all_G1_60, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33379
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          60
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 189420
  with seed                   49
 Ranmar initialization seeds         124       18360
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.437225D+04 0.437225D+04  1.00
 muF1, muF1_reference: 0.437225D+04 0.437225D+04  1.00
 muF2, muF2_reference: 0.437225D+04 0.437225D+04  1.00
 QES,  QES_reference:  0.437225D+04 0.437225D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4755991733838664E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4755991733838664E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0324257333527704E-006           OLP:   -4.0324257333527712E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1705027895493015E-006           OLP:   -8.1705027895494574E-006
  FINITE:
           OLP:   -9.6995738548410961E-005
           BORN:    1.1621285293304962E-003
  MOMENTA (Exyzm): 
           1   2186.1269439627235        0.0000000000000000        0.0000000000000000        2186.1269439627235        0.0000000000000000     
           2   2186.1269439627235       -0.0000000000000000       -0.0000000000000000       -2186.1269439627235        0.0000000000000000     
           3   2186.1269439627235       -1441.8468214658426       -1527.1124948827305        606.75875479607748        0.0000000000000000     
           4   2186.1269439627235        1441.8468214658426        1527.1124948827305       -606.75875479607748        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0324257333527704E-006           OLP:   -4.0324257333527712E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -8.1705027895493015E-006           OLP:   -8.1705027895494574E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
ABS integral  = 0.9117E-06  +/-  0.1884E-08  (   0.207 %)
Integral      = 0.5125E-06  +/-  0.2136E-08  (   0.417 %)
Virtual       = -.3487E-09  +/-  0.1089E-08  ( 312.375 %)
Virtual ratio = -.1946E+00  +/-  0.4292E-03  (   0.221 %)
ABS virtual   = 0.4845E-06  +/-  0.8759E-09  (   0.181 %)
Born          = 0.1780E-05  +/-  0.2689E-08  (   0.151 %)
V  2          = -.3487E-09  +/-  0.1089E-08  ( 312.375 %)
B  2          = 0.1780E-05  +/-  0.2689E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9117E-06  +/-  0.1884E-08  (   0.207 %)
accumulated results Integral      = 0.5125E-06  +/-  0.2136E-08  (   0.417 %)
accumulated results Virtual       = -.3487E-09  +/-  0.1089E-08  ( 312.375 %)
accumulated results Virtual ratio = -.1946E+00  +/-  0.4292E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4845E-06  +/-  0.8759E-09  (   0.181 %)
accumulated results Born          = 0.1780E-05  +/-  0.2689E-08  (   0.151 %)
accumulated results V  2          = -.3487E-09  +/-  0.1089E-08  ( 312.375 %)
accumulated results B  2          = 0.1780E-05  +/-  0.2689E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   210236    23899  0.3401E-06  0.1855E-06  0.8111E+00
channel    2 :     1 T   204544    24412  0.3343E-06  0.1987E-06  0.9475E+00
channel    3 :     2 T    71747     8586  0.1174E-06  0.6156E-07  0.9684E+00
channel    4 :     2 T    73345     8635  0.1200E-06  0.6670E-07  0.9658E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.1174867290154613E-007  +/-   1.8836333710633481E-009
 Final result:   5.1252545679764603E-007  +/-   2.1362747590057829E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376404
   Stability unknown:                                          0
   Stable PS point:                                       376404
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376404
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376404
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.25366580    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.70568180    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.06103039    
 Time spent in Integrated_CT :    9.01275635    
 Time spent in Virtuals :    529.829651    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.29744720    
 Time spent in N1body_prefactor :   0.614149272    
 Time spent in Adding_alphas_pdf :    10.3463993    
 Time spent in Reweight_scale :    38.8012390    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.2202301    
 Time spent in Applying_cuts :    4.83761835    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.2599831    
 Time spent in Other_tasks :    20.6018677    
 Time spent in Total :    682.841736    
Time in seconds: 801



LOG file for integration channel /P0_uxu_emep/all_G1_61, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33376
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          61
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 192577
  with seed                   49
 Ranmar initialization seeds         124       21517
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.423396D+04 0.423396D+04  1.00
 muF1, muF1_reference: 0.423396D+04 0.423396D+04  1.00
 muF2, muF2_reference: 0.423396D+04 0.423396D+04  1.00
 QES,  QES_reference:  0.423396D+04 0.423396D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4982761054554009E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4982761054554009E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9587170058631440E-006           OLP:   -3.9587170058631440E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1063649597588692E-006           OLP:   -8.1063649597589454E-006
  FINITE:
           OLP:   -8.8807602432419615E-005
           BORN:    1.1408859768966488E-003
  MOMENTA (Exyzm): 
           1   2116.9787890079187        0.0000000000000000        0.0000000000000000        2116.9787890079187        0.0000000000000000     
           2   2116.9787890079187       -0.0000000000000000       -0.0000000000000000       -2116.9787890079187        0.0000000000000000     
           3   2116.9787890079187       -1441.4276033711874       -1425.2901995943880        610.27330294649096        0.0000000000000000     
           4   2116.9787890079187        1441.4276033711874        1425.2901995943880       -610.27330294649096        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9587170058631440E-006           OLP:   -3.9587170058631440E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1063649597588675E-006           OLP:   -8.1063649597589454E-006
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 Error #15 in genps_fks.f  -1.1264346539974213E-006           4
ABS integral  = 0.9081E-06  +/-  0.1804E-08  (   0.199 %)
Integral      = 0.5129E-06  +/-  0.2064E-08  (   0.402 %)
Virtual       = -.5561E-09  +/-  0.1084E-08  ( 194.955 %)
Virtual ratio = -.1949E+00  +/-  0.4300E-03  (   0.221 %)
ABS virtual   = 0.4834E-06  +/-  0.8706E-09  (   0.180 %)
Born          = 0.1778E-05  +/-  0.2676E-08  (   0.151 %)
V  2          = -.5561E-09  +/-  0.1084E-08  ( 194.955 %)
B  2          = 0.1778E-05  +/-  0.2676E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9081E-06  +/-  0.1804E-08  (   0.199 %)
accumulated results Integral      = 0.5129E-06  +/-  0.2064E-08  (   0.402 %)
accumulated results Virtual       = -.5561E-09  +/-  0.1084E-08  ( 194.955 %)
accumulated results Virtual ratio = -.1949E+00  +/-  0.4300E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4834E-06  +/-  0.8706E-09  (   0.180 %)
accumulated results Born          = 0.1778E-05  +/-  0.2676E-08  (   0.151 %)
accumulated results V  2          = -.5561E-09  +/-  0.1084E-08  ( 194.955 %)
accumulated results B  2          = 0.1778E-05  +/-  0.2676E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   209462    23899  0.3361E-06  0.1853E-06  0.8538E+00
channel    2 :     1 T   205718    24412  0.3373E-06  0.1990E-06  0.9602E+00
channel    3 :     2 T    71399     8586  0.1160E-06  0.6109E-07  0.1000E+01
channel    4 :     2 T    73297     8635  0.1187E-06  0.6744E-07  0.9760E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0807885631673198E-007  +/-   1.8041798503673228E-009
 Final result:   5.1286418584398912E-007  +/-   2.0635191370733579E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376757
   Stability unknown:                                          0
   Stable PS point:                                       376757
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376757
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376757
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.25490785    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.83418083    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.09920025    
 Time spent in Integrated_CT :    9.16229248    
 Time spent in Virtuals :    536.151489    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.40294933    
 Time spent in N1body_prefactor :   0.609457731    
 Time spent in Adding_alphas_pdf :    10.2756395    
 Time spent in Reweight_scale :    38.1819153    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.4251566    
 Time spent in Applying_cuts :    5.00077248    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.0570831    
 Time spent in Other_tasks :    20.7947388    
 Time spent in Total :    689.249817    
Time in seconds: 796



LOG file for integration channel /P0_uxu_emep/all_G1_62, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33381
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          62
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 195734
  with seed                   49
 Ranmar initialization seeds         124       24674
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.426774D+04 0.426774D+04  1.00
 muF1, muF1_reference: 0.426774D+04 0.426774D+04  1.00
 muF2, muF2_reference: 0.426774D+04 0.426774D+04  1.00
 QES,  QES_reference:  0.426774D+04 0.426774D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4926563808783694E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4926563808783694E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8104550928230123E-006           OLP:   -3.8104550928230123E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9747771029039006E-006           OLP:   -7.9747771029037634E-006
  FINITE:
           OLP:   -8.0469268692177182E-005
           BORN:    1.0981575026852229E-003
  MOMENTA (Exyzm): 
           1   2133.8709259887928        0.0000000000000000        0.0000000000000000        2133.8709259887928        0.0000000000000000     
           2   2133.8709259887928       -0.0000000000000000       -0.0000000000000000       -2133.8709259887928        0.0000000000000000     
           3   2133.8709259887928       -1439.1664309728299       -1429.3752255193483        662.63985498361569        0.0000000000000000     
           4   2133.8709259887928        1439.1664309728299        1429.3752255193483       -662.63985498361569        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8104550928230123E-006           OLP:   -3.8104550928230123E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9747771029039023E-006           OLP:   -7.9747771029037634E-006
 REAL 3: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9098E-06  +/-  0.1838E-08  (   0.202 %)
Integral      = 0.5189E-06  +/-  0.2092E-08  (   0.403 %)
Virtual       = 0.2101E-08  +/-  0.1084E-08  (  51.587 %)
Virtual ratio = -.1941E+00  +/-  0.4294E-03  (   0.221 %)
ABS virtual   = 0.4844E-06  +/-  0.8695E-09  (   0.180 %)
Born          = 0.1780E-05  +/-  0.2682E-08  (   0.151 %)
V  2          = 0.2101E-08  +/-  0.1084E-08  (  51.587 %)
B  2          = 0.1780E-05  +/-  0.2682E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9098E-06  +/-  0.1838E-08  (   0.202 %)
accumulated results Integral      = 0.5189E-06  +/-  0.2092E-08  (   0.403 %)
accumulated results Virtual       = 0.2101E-08  +/-  0.1084E-08  (  51.587 %)
accumulated results Virtual ratio = -.1941E+00  +/-  0.4294E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4844E-06  +/-  0.8695E-09  (   0.180 %)
accumulated results Born          = 0.1780E-05  +/-  0.2682E-08  (   0.151 %)
accumulated results V  2          = 0.2101E-08  +/-  0.1084E-08  (  51.587 %)
accumulated results B  2          = 0.1780E-05  +/-  0.2682E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   210066    23899  0.3379E-06  0.1862E-06  0.8144E+00
channel    2 :     1 T   204098    24412  0.3340E-06  0.2008E-06  0.9607E+00
channel    3 :     2 T    72297     8586  0.1181E-06  0.6393E-07  0.1000E+01
channel    4 :     2 T    73417     8635  0.1197E-06  0.6793E-07  0.9711E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0976753628443370E-007  +/-   1.8384976966762310E-009
 Final result:   5.1887407867424808E-007  +/-   2.0922542746459471E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376966
   Stability unknown:                                          0
   Stable PS point:                                       376966
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376966
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376966
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.26405513    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.61170435    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.16515446    
 Time spent in Integrated_CT :    9.17956543    
 Time spent in Virtuals :    536.442078    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.41337395    
 Time spent in N1body_prefactor :   0.591015339    
 Time spent in Adding_alphas_pdf :    10.4671650    
 Time spent in Reweight_scale :    38.2032242    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.3823490    
 Time spent in Applying_cuts :    4.99676132    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.0012627    
 Time spent in Other_tasks :    20.9773560    
 Time spent in Total :    689.695068    
Time in seconds: 797



LOG file for integration channel /P0_uxu_emep/all_G1_63, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33382
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          63
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 198891
  with seed                   49
 Ranmar initialization seeds         124       27831
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.432719D+04 0.432719D+04  1.00
 muF1, muF1_reference: 0.432719D+04 0.432719D+04  1.00
 muF2, muF2_reference: 0.432719D+04 0.432719D+04  1.00
 QES,  QES_reference:  0.432719D+04 0.432719D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4828949266311034E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4704237373488941E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.4107017785977436E-006           OLP:   -3.4107017785977364E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.6067394974441290E-006           OLP:   -7.6067394974441603E-006
  FINITE:
           OLP:   -5.9161184757285275E-005
           BORN:    9.8295023989222914E-004
  MOMENTA (Exyzm): 
           1   2202.2801316024106        0.0000000000000000        0.0000000000000000        2202.2801316024106        0.0000000000000000     
           2   2202.2801316024106       -0.0000000000000000       -0.0000000000000000       -2202.2801316024106        0.0000000000000000     
           3   2202.2801316024106       -1865.9721258689976       -825.83121551554768        828.36502039305026        0.0000000000000000     
           4   2202.2801316024106        1865.9721258689976        825.83121551554768       -828.36502039305026        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.4107017785977436E-006           OLP:   -3.4107017785977364E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.6067394974441290E-006           OLP:   -7.6067394974441603E-006
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9062E-06  +/-  0.1803E-08  (   0.199 %)
Integral      = 0.5143E-06  +/-  0.2061E-08  (   0.401 %)
Virtual       = -.6549E-09  +/-  0.1085E-08  ( 165.676 %)
Virtual ratio = -.1955E+00  +/-  0.4288E-03  (   0.219 %)
ABS virtual   = 0.4835E-06  +/-  0.8715E-09  (   0.180 %)
Born          = 0.1778E-05  +/-  0.2676E-08  (   0.150 %)
V  2          = -.6549E-09  +/-  0.1085E-08  ( 165.676 %)
B  2          = 0.1778E-05  +/-  0.2676E-08  (   0.150 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9062E-06  +/-  0.1803E-08  (   0.199 %)
accumulated results Integral      = 0.5143E-06  +/-  0.2061E-08  (   0.401 %)
accumulated results Virtual       = -.6549E-09  +/-  0.1085E-08  ( 165.676 %)
accumulated results Virtual ratio = -.1955E+00  +/-  0.4288E-03  (   0.219 %)
accumulated results ABS virtual   = 0.4835E-06  +/-  0.8715E-09  (   0.180 %)
accumulated results Born          = 0.1778E-05  +/-  0.2676E-08  (   0.150 %)
accumulated results V  2          = -.6549E-09  +/-  0.1085E-08  ( 165.676 %)
accumulated results B  2          = 0.1778E-05  +/-  0.2676E-08  (   0.150 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   209931    23899  0.3352E-06  0.1850E-06  0.8730E+00
channel    2 :     1 T   204396    24412  0.3326E-06  0.1997E-06  0.9916E+00
channel    3 :     2 T    71890     8586  0.1183E-06  0.6230E-07  0.1000E+01
channel    4 :     2 T    73655     8635  0.1202E-06  0.6730E-07  0.8796E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0624887244471193E-007  +/-   1.8031966877084095E-009
 Final result:   5.1432498496588384E-007  +/-   2.0605713326129117E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376934
   Stability unknown:                                          0
   Stable PS point:                                       376934
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376934
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376934
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.23609257    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.64630747    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.08288193    
 Time spent in Integrated_CT :    8.99719238    
 Time spent in Virtuals :    525.319519    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.29992819    
 Time spent in N1body_prefactor :   0.606723368    
 Time spent in Adding_alphas_pdf :    10.3229141    
 Time spent in Reweight_scale :    39.0777397    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.4384346    
 Time spent in Applying_cuts :    4.84470320    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    34.9485550    
 Time spent in Other_tasks :    20.4469604    
 Time spent in Total :    678.268005    
Time in seconds: 787



LOG file for integration channel /P0_uxu_emep/all_G1_64, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33374
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          64
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 202048
  with seed                   49
 Ranmar initialization seeds         124         907
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.419602D+04 0.419602D+04  1.00
 muF1, muF1_reference: 0.419602D+04 0.419602D+04  1.00
 muF2, muF2_reference: 0.419602D+04 0.419602D+04  1.00
 QES,  QES_reference:  0.419602D+04 0.419602D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5046498939839251E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5046498939839251E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9997643805214565E-006           OLP:   -3.9997643805214438E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1422082796657491E-006           OLP:   -8.1422082796657203E-006
  FINITE:
           OLP:   -9.0378344245792036E-005
           BORN:    1.1527156616320650E-003
  MOMENTA (Exyzm): 
           1   2098.0111408923381        0.0000000000000000        0.0000000000000000        2098.0111408923381        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2098.0111408923381       -0.0000000000000000       -0.0000000000000000       -2098.0111408923381        0.0000000000000000     
           3   2098.0111408923381       -1777.0110863482000       -945.06867921562355        592.22254083207304        0.0000000000000000     
           4   2098.0111408923381        1777.0110863482000        945.06867921562355       -592.22254083207304        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9997643805214565E-006           OLP:   -3.9997643805214438E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1422082796657491E-006           OLP:   -8.1422082796657203E-006
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9058E-06  +/-  0.1819E-08  (   0.201 %)
Integral      = 0.5149E-06  +/-  0.2074E-08  (   0.403 %)
Virtual       = 0.5836E-09  +/-  0.1084E-08  ( 185.765 %)
Virtual ratio = -.1942E+00  +/-  0.4299E-03  (   0.221 %)
ABS virtual   = 0.4832E-06  +/-  0.8708E-09  (   0.180 %)
Born          = 0.1777E-05  +/-  0.2682E-08  (   0.151 %)
V  2          = 0.5836E-09  +/-  0.1084E-08  ( 185.765 %)
B  2          = 0.1777E-05  +/-  0.2682E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9058E-06  +/-  0.1819E-08  (   0.201 %)
accumulated results Integral      = 0.5149E-06  +/-  0.2074E-08  (   0.403 %)
accumulated results Virtual       = 0.5836E-09  +/-  0.1084E-08  ( 185.765 %)
accumulated results Virtual ratio = -.1942E+00  +/-  0.4299E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4832E-06  +/-  0.8708E-09  (   0.180 %)
accumulated results Born          = 0.1777E-05  +/-  0.2682E-08  (   0.151 %)
accumulated results V  2          = 0.5836E-09  +/-  0.1084E-08  ( 185.765 %)
accumulated results B  2          = 0.1777E-05  +/-  0.2682E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   209271    23899  0.3361E-06  0.1848E-06  0.8505E+00
channel    2 :     1 T   205008    24412  0.3327E-06  0.1992E-06  0.9617E+00
channel    3 :     2 T    71937     8586  0.1174E-06  0.6272E-07  0.1000E+01
channel    4 :     2 T    73661     8635  0.1196E-06  0.6823E-07  0.9428E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0581098649929872E-007  +/-   1.8193605451359598E-009
 Final result:   5.1493992370400573E-007  +/-   2.0741169136853410E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376438
   Stability unknown:                                          0
   Stable PS point:                                       376438
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376438
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376438
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.23237073    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.61816692    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.98567152    
 Time spent in Integrated_CT :    8.94427490    
 Time spent in Virtuals :    523.770081    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.26913643    
 Time spent in N1body_prefactor :   0.598314404    
 Time spent in Adding_alphas_pdf :    10.1786137    
 Time spent in Reweight_scale :    38.5926170    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.3577442    
 Time spent in Applying_cuts :    4.84655523    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    34.9486885    
 Time spent in Other_tasks :    20.1874390    
 Time spent in Total :    675.529602    
Time in seconds: 788



LOG file for integration channel /P0_uxu_emep/all_G1_65, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33355
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          65
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 205205
  with seed                   49
 Ranmar initialization seeds         124        4064
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.438443D+04 0.438443D+04  1.00
 muF1, muF1_reference: 0.438443D+04 0.438443D+04  1.00
 muF2, muF2_reference: 0.438443D+04 0.438443D+04  1.00
 QES,  QES_reference:  0.438443D+04 0.438443D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4736426147920962E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4736426147920976E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7107312507922053E-006           OLP:   -3.7107312507922066E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8845372464426809E-006           OLP:   -7.8845372464426927E-006
  FINITE:
           OLP:   -7.7046388936713220E-005
           BORN:    1.0694175011224192E-003
  MOMENTA (Exyzm): 
           1   2192.2171134997816        0.0000000000000000        0.0000000000000000        2192.2171134997816        0.0000000000000000     
           2   2192.2171134997816       -0.0000000000000000       -0.0000000000000000       -2192.2171134997816        0.0000000000000000     
           3   2192.2171134997816       -1903.7892841078544       -818.79476317513752        714.82681135669986        0.0000000000000000     
           4   2192.2171134997816        1903.7892841078544        818.79476317513752       -714.82681135669986        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7107312507922053E-006           OLP:   -3.7107312507922066E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8845372464426792E-006           OLP:   -7.8845372464426927E-006
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
ABS integral  = 0.9089E-06  +/-  0.1842E-08  (   0.203 %)
Integral      = 0.5141E-06  +/-  0.2097E-08  (   0.408 %)
Virtual       = -.6906E-09  +/-  0.1086E-08  ( 157.215 %)
Virtual ratio = -.1943E+00  +/-  0.4295E-03  (   0.221 %)
ABS virtual   = 0.4838E-06  +/-  0.8722E-09  (   0.180 %)
Born          = 0.1780E-05  +/-  0.2684E-08  (   0.151 %)
V  2          = -.6906E-09  +/-  0.1086E-08  ( 157.215 %)
B  2          = 0.1780E-05  +/-  0.2684E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9089E-06  +/-  0.1842E-08  (   0.203 %)
accumulated results Integral      = 0.5141E-06  +/-  0.2097E-08  (   0.408 %)
accumulated results Virtual       = -.6906E-09  +/-  0.1086E-08  ( 157.215 %)
accumulated results Virtual ratio = -.1943E+00  +/-  0.4295E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4838E-06  +/-  0.8722E-09  (   0.180 %)
accumulated results Born          = 0.1780E-05  +/-  0.2684E-08  (   0.151 %)
accumulated results V  2          = -.6906E-09  +/-  0.1086E-08  ( 157.215 %)
accumulated results B  2          = 0.1780E-05  +/-  0.2684E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   209610    23899  0.3364E-06  0.1849E-06  0.8602E+00
channel    2 :     1 T   205135    24412  0.3378E-06  0.2004E-06  0.9188E+00
channel    3 :     2 T    71556     8586  0.1169E-06  0.6132E-07  0.1000E+01
channel    4 :     2 T    73574     8635  0.1178E-06  0.6744E-07  0.9672E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0888981814945728E-007  +/-   1.8419786647056056E-009
 Final result:   5.1405779616100485E-007  +/-   2.0967532533308380E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376916
   Stability unknown:                                          0
   Stable PS point:                                       376916
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376916
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376916
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.23865604    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.78197670    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.03061247    
 Time spent in Integrated_CT :    8.93768311    
 Time spent in Virtuals :    528.121155    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.40568161    
 Time spent in N1body_prefactor :   0.628920078    
 Time spent in Adding_alphas_pdf :    10.2910118    
 Time spent in Reweight_scale :    38.8145370    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.1008892    
 Time spent in Applying_cuts :    4.83793926    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.0330734    
 Time spent in Other_tasks :    20.7083740    
 Time spent in Total :    680.930542    
Time in seconds: 788



LOG file for integration channel /P0_uxu_emep/all_G1_66, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33366
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          66
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 208362
  with seed                   49
 Ranmar initialization seeds         124        7221
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.433125D+04 0.433125D+04  1.00
 muF1, muF1_reference: 0.433125D+04 0.433125D+04  1.00
 muF2, muF2_reference: 0.433125D+04 0.433125D+04  1.00
 QES,  QES_reference:  0.433125D+04 0.433125D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4822335813935992E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 alpha_s value used for the virtuals is (for the first PS point):    7.5013277521519844E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9009908659493730E-006           OLP:   -3.9009908659493755E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0555227483944066E-006           OLP:   -8.0555227483944676E-006
  FINITE:
           OLP:   -8.4770869442996402E-005
           BORN:    1.1242495405384921E-003
  MOMENTA (Exyzm): 
           1   2107.8722359463623        0.0000000000000000        0.0000000000000000        2107.8722359463623        0.0000000000000000     
           2   2107.8722359463623       -0.0000000000000000       -0.0000000000000000       -2107.8722359463623        0.0000000000000000     
           3   2107.8722359463623       -1352.4698766064992       -1490.7979727176739        625.67723347297181        0.0000000000000000     
           4   2107.8722359463623        1352.4698766064992        1490.7979727176739       -625.67723347297181        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9009908659493730E-006           OLP:   -3.9009908659493755E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0555227483944066E-006           OLP:   -8.0555227483944676E-006
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9106E-06  +/-  0.2008E-08  (   0.220 %)
Integral      = 0.5159E-06  +/-  0.2244E-08  (   0.435 %)
Virtual       = 0.7799E-09  +/-  0.1084E-08  ( 139.044 %)
Virtual ratio = -.1948E+00  +/-  0.4300E-03  (   0.221 %)
ABS virtual   = 0.4828E-06  +/-  0.8715E-09  (   0.181 %)
Born          = 0.1776E-05  +/-  0.2680E-08  (   0.151 %)
V  2          = 0.7799E-09  +/-  0.1084E-08  ( 139.044 %)
B  2          = 0.1776E-05  +/-  0.2680E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9106E-06  +/-  0.2008E-08  (   0.220 %)
accumulated results Integral      = 0.5159E-06  +/-  0.2244E-08  (   0.435 %)
accumulated results Virtual       = 0.7799E-09  +/-  0.1084E-08  ( 139.044 %)
accumulated results Virtual ratio = -.1948E+00  +/-  0.4300E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4828E-06  +/-  0.8715E-09  (   0.181 %)
accumulated results Born          = 0.1776E-05  +/-  0.2680E-08  (   0.151 %)
accumulated results V  2          = 0.7799E-09  +/-  0.1084E-08  ( 139.044 %)
accumulated results B  2          = 0.1776E-05  +/-  0.2680E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   209578    23899  0.3358E-06  0.1859E-06  0.7897E+00
channel    2 :     1 T   204564    24412  0.3367E-06  0.1998E-06  0.8480E+00
channel    3 :     2 T    71757     8586  0.1166E-06  0.6288E-07  0.1000E+01
channel    4 :     2 T    73975     8635  0.1215E-06  0.6738E-07  0.9214E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.1057817773688938E-007  +/-   2.0076501618271473E-009
 Final result:   5.1589470667080993E-007  +/-   2.2441603274700344E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376333
   Stability unknown:                                          0
   Stable PS point:                                       376333
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376333
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376333
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.23604012    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.68910980    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.12783623    
 Time spent in Integrated_CT :    9.13836670    
 Time spent in Virtuals :    536.112610    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.35258198    
 Time spent in N1body_prefactor :   0.592560410    
 Time spent in Adding_alphas_pdf :    10.2378445    
 Time spent in Reweight_scale :    38.2700577    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.2194910    
 Time spent in Applying_cuts :    4.96406698    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    34.9024353    
 Time spent in Other_tasks :    20.7039795    
 Time spent in Total :    688.546997    
Time in seconds: 801



LOG file for integration channel /P0_uxu_emep/all_G1_67, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33364
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          67
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 211519
  with seed                   49
 Ranmar initialization seeds         124       10378
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.426041D+04 0.426041D+04  1.00
 muF1, muF1_reference: 0.426041D+04 0.426041D+04  1.00
 muF2, muF2_reference: 0.426041D+04 0.426041D+04  1.00
 QES,  QES_reference:  0.426041D+04 0.426041D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4938709636622095E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4692278409388052E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8187740192666143E-006           OLP:   -3.8187740192666050E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9822319376824821E-006           OLP:   -7.9822319376824923E-006
  FINITE:
           OLP:   -8.4438480466618172E-005
           BORN:    1.1005549831083711E-003
  MOMENTA (Exyzm): 
           1   2206.0327936702402        0.0000000000000000        0.0000000000000000        2206.0327936702402        0.0000000000000000     
           2   2206.0327936702402       -0.0000000000000000       -0.0000000000000000       -2206.0327936702402        0.0000000000000000     
           3   2206.0327936702402       -1367.0341596180951       -1591.3381297941987        682.23254821862270        0.0000000000000000     
           4   2206.0327936702402        1367.0341596180951        1591.3381297941987       -682.23254821862270        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8187740192666143E-006           OLP:   -3.8187740192666050E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9822319376824821E-006           OLP:   -7.9822319376824923E-006
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9066E-06  +/-  0.1950E-08  (   0.215 %)
Integral      = 0.5147E-06  +/-  0.2190E-08  (   0.425 %)
Virtual       = 0.6009E-09  +/-  0.1084E-08  ( 180.472 %)
Virtual ratio = -.1947E+00  +/-  0.4297E-03  (   0.221 %)
ABS virtual   = 0.4839E-06  +/-  0.8705E-09  (   0.180 %)
Born          = 0.1780E-05  +/-  0.2686E-08  (   0.151 %)
V  2          = 0.6009E-09  +/-  0.1084E-08  ( 180.472 %)
B  2          = 0.1780E-05  +/-  0.2686E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9066E-06  +/-  0.1950E-08  (   0.215 %)
accumulated results Integral      = 0.5147E-06  +/-  0.2190E-08  (   0.425 %)
accumulated results Virtual       = 0.6009E-09  +/-  0.1084E-08  ( 180.472 %)
accumulated results Virtual ratio = -.1947E+00  +/-  0.4297E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4839E-06  +/-  0.8705E-09  (   0.180 %)
accumulated results Born          = 0.1780E-05  +/-  0.2686E-08  (   0.151 %)
accumulated results V  2          = 0.6009E-09  +/-  0.1084E-08  ( 180.472 %)
accumulated results B  2          = 0.1780E-05  +/-  0.2686E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   209313    23899  0.3355E-06  0.1845E-06  0.8728E+00
channel    2 :     1 T   204646    24412  0.3338E-06  0.1986E-06  0.8448E+00
channel    3 :     2 T    72396     8586  0.1181E-06  0.6299E-07  0.8978E+00
channel    4 :     2 T    73513     8635  0.1192E-06  0.6872E-07  0.9650E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0659807634974651E-007  +/-   1.9497796698347200E-009
 Final result:   5.1471712768158063E-007  +/-   2.1900882715775676E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376925
   Stability unknown:                                          0
   Stable PS point:                                       376925
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376925
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376925
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.24553382    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.60712624    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.11605835    
 Time spent in Integrated_CT :    9.16870117    
 Time spent in Virtuals :    536.268494    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.45939922    
 Time spent in N1body_prefactor :   0.593703270    
 Time spent in Adding_alphas_pdf :    10.2491112    
 Time spent in Reweight_scale :    38.1774445    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.2925491    
 Time spent in Applying_cuts :    4.93213463    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    34.8504791    
 Time spent in Other_tasks :    20.5312500    
 Time spent in Total :    688.491882    
Time in seconds: 801



LOG file for integration channel /P0_uxu_emep/all_G1_68, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33351
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          68
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 214676
  with seed                   49
 Ranmar initialization seeds         124       13535
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.441109D+04 0.441109D+04  1.00
 muF1, muF1_reference: 0.441109D+04 0.441109D+04  1.00
 muF2, muF2_reference: 0.441109D+04 0.441109D+04  1.00
 QES,  QES_reference:  0.441109D+04 0.441109D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4693830731086777E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4693830731086777E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7200683674837383E-006           OLP:   -3.7200683674837345E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8930378098997598E-006           OLP:   -7.8930378098996954E-006
  FINITE:
           OLP:   -7.8236056250725270E-005
           BORN:    1.0721084197918367E-003
  MOMENTA (Exyzm): 
           1   2205.5452499619269        0.0000000000000000        0.0000000000000000        2205.5452499619269        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2205.5452499619269       -0.0000000000000000       -0.0000000000000000       -2205.5452499619269        0.0000000000000000     
           3   2205.5452499619269       -1160.3643318919630       -1733.6226774575655        715.91681018635006        0.0000000000000000     
           4   2205.5452499619269        1160.3643318919630        1733.6226774575655       -715.91681018635006        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7200683674837383E-006           OLP:   -3.7200683674837345E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8930378098997615E-006           OLP:   -7.8930378098996954E-006
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9111E-06  +/-  0.2124E-08  (   0.233 %)
Integral      = 0.5142E-06  +/-  0.2350E-08  (   0.457 %)
Virtual       = -.1720E-10  +/-  0.1087E-08  ( ******* %)
Virtual ratio = -.1949E+00  +/-  0.4290E-03  (   0.220 %)
ABS virtual   = 0.4836E-06  +/-  0.8740E-09  (   0.181 %)
Born          = 0.1780E-05  +/-  0.2687E-08  (   0.151 %)
V  2          = -.1720E-10  +/-  0.1087E-08  ( ******* %)
B  2          = 0.1780E-05  +/-  0.2687E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9111E-06  +/-  0.2124E-08  (   0.233 %)
accumulated results Integral      = 0.5142E-06  +/-  0.2350E-08  (   0.457 %)
accumulated results Virtual       = -.1720E-10  +/-  0.1087E-08  ( ******* %)
accumulated results Virtual ratio = -.1949E+00  +/-  0.4290E-03  (   0.220 %)
accumulated results ABS virtual   = 0.4836E-06  +/-  0.8740E-09  (   0.181 %)
accumulated results Born          = 0.1780E-05  +/-  0.2687E-08  (   0.151 %)
accumulated results V  2          = -.1720E-10  +/-  0.1087E-08  ( ******* %)
accumulated results B  2          = 0.1780E-05  +/-  0.2687E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   209766    23899  0.3364E-06  0.1859E-06  0.8689E+00
channel    2 :     1 T   205012    24412  0.3368E-06  0.1990E-06  0.7430E+00
channel    3 :     2 T    71802     8586  0.1173E-06  0.6206E-07  0.9904E+00
channel    4 :     2 T    73295     8635  0.1206E-06  0.6711E-07  0.8487E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.1110928404387721E-007  +/-   2.1240133441541010E-009
 Final result:   5.1415690797532524E-007  +/-   2.3498839076453642E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376842
   Stability unknown:                                          0
   Stable PS point:                                       376842
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376842
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376842
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.22587490    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.71227360    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.05188131    
 Time spent in Integrated_CT :    9.14361572    
 Time spent in Virtuals :    528.714722    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.36700058    
 Time spent in N1body_prefactor :   0.609738946    
 Time spent in Adding_alphas_pdf :    10.3719397    
 Time spent in Reweight_scale :    38.9669647    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.6063843    
 Time spent in Applying_cuts :    4.93816710    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.4813004    
 Time spent in Other_tasks :    20.6364136    
 Time spent in Total :    682.826355    
Time in seconds: 797



LOG file for integration channel /P0_uxu_emep/all_G1_69, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33380
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          69
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 217833
  with seed                   49
 Ranmar initialization seeds         124       16692
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.433752D+04 0.433752D+04  1.00
 muF1, muF1_reference: 0.433752D+04 0.433752D+04  1.00
 muF2, muF2_reference: 0.433752D+04 0.433752D+04  1.00
 QES,  QES_reference:  0.433752D+04 0.433752D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4812147457823983E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4812147457823969E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5357238677717810E-006           OLP:   -3.5357238677717886E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7234149300763822E-006           OLP:   -7.7234149300764127E-006
  FINITE:
           OLP:   -6.5292516243768760E-005
           BORN:    1.0189810923451142E-003
  MOMENTA (Exyzm): 
           1   2168.7580024452714        0.0000000000000000        0.0000000000000000        2168.7580024452714        0.0000000000000000     
           2   2168.7580024452714       -0.0000000000000000       -0.0000000000000000       -2168.7580024452714        0.0000000000000000     
           3   2168.7580024452714       -1935.5557999126418       -604.69636314934939        769.07563151414911        0.0000000000000000     
           4   2168.7580024452714        1935.5557999126418        604.69636314934939       -769.07563151414911        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5357238677717810E-006           OLP:   -3.5357238677717886E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -7.7234149300763805E-006           OLP:   -7.7234149300764127E-006
 REAL 2: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9081E-06  +/-  0.1847E-08  (   0.203 %)
Integral      = 0.5174E-06  +/-  0.2099E-08  (   0.406 %)
Virtual       = 0.1072E-08  +/-  0.1083E-08  ( 101.094 %)
Virtual ratio = -.1942E+00  +/-  0.4294E-03  (   0.221 %)
ABS virtual   = 0.4833E-06  +/-  0.8697E-09  (   0.180 %)
Born          = 0.1777E-05  +/-  0.2678E-08  (   0.151 %)
V  2          = 0.1072E-08  +/-  0.1083E-08  ( 101.094 %)
B  2          = 0.1777E-05  +/-  0.2678E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9081E-06  +/-  0.1847E-08  (   0.203 %)
accumulated results Integral      = 0.5174E-06  +/-  0.2099E-08  (   0.406 %)
accumulated results Virtual       = 0.1072E-08  +/-  0.1083E-08  ( 101.094 %)
accumulated results Virtual ratio = -.1942E+00  +/-  0.4294E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4833E-06  +/-  0.8697E-09  (   0.180 %)
accumulated results Born          = 0.1777E-05  +/-  0.2678E-08  (   0.151 %)
accumulated results V  2          = 0.1072E-08  +/-  0.1083E-08  ( 101.094 %)
accumulated results B  2          = 0.1777E-05  +/-  0.2678E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                            1                           2                     3                    4
channel    1 :     1 T   209373    23899  0.3361E-06  0.1847E-06  0.8678E+00
channel    2 :     1 T   205247    24412  0.3357E-06  0.2003E-06  0.9230E+00
channel    3 :     2 T    71939     8586  0.1180E-06  0.6287E-07  0.9449E+00
channel    4 :     2 T    73315     8635  0.1184E-06  0.6961E-07  0.9651E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0813533451668014E-007  +/-   1.8474068024417190E-009
 Final result:   5.1742192947808154E-007  +/-   2.0994652095321987E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376879
   Stability unknown:                                          0
   Stable PS point:                                       376879
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376879
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376879
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.23517942    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.75531530    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.04304361    
 Time spent in Integrated_CT :    9.04559326    
 Time spent in Virtuals :    529.344666    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.44040155    
 Time spent in N1body_prefactor :   0.614484727    
 Time spent in Adding_alphas_pdf :    10.3025246    
 Time spent in Reweight_scale :    39.0662880    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.1629848    
 Time spent in Applying_cuts :    4.85112000    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.3615685    
 Time spent in Other_tasks :    20.5957642    
 Time spent in Total :    682.819031    
Time in seconds: 796



LOG file for integration channel /P0_uxu_emep/all_G1_70, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33387
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          70
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 220990
  with seed                   49
 Ranmar initialization seeds         124       19849
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.422856D+04 0.422856D+04  1.00
 muF1, muF1_reference: 0.422856D+04 0.422856D+04  1.00
 muF2, muF2_reference: 0.422856D+04 0.422856D+04  1.00
 QES,  QES_reference:  0.422856D+04 0.422856D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4991793222124861E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4991793222124861E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.2342441196957000E-006           OLP:   -4.2342441196957026E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.3415295064192514E-006           OLP:   -8.3415295064192599E-006
  FINITE:
           OLP:   -1.0599434951051272E-004
           BORN:    1.2202917591136659E-003
  MOMENTA (Exyzm): 
           1   2114.2786186294034        0.0000000000000000        0.0000000000000000        2114.2786186294034        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2114.2786186294034       -0.0000000000000000       -0.0000000000000000       -2114.2786186294034        0.0000000000000000     
           3   2114.2786186294034       -1820.1951596938115       -937.76072727257758        526.94257391663120        0.0000000000000000     
           4   2114.2786186294034        1820.1951596938115        937.76072727257758       -526.94257391663120        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.2342441196957000E-006           OLP:   -4.2342441196957026E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.3415295064192514E-006           OLP:   -8.3415295064192599E-006
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9062E-06  +/-  0.1768E-08  (   0.195 %)
Integral      = 0.5189E-06  +/-  0.2028E-08  (   0.391 %)
Virtual       = 0.1827E-08  +/-  0.1082E-08  (  59.216 %)
Virtual ratio = -.1940E+00  +/-  0.4300E-03  (   0.222 %)
ABS virtual   = 0.4828E-06  +/-  0.8688E-09  (   0.180 %)
Born          = 0.1775E-05  +/-  0.2675E-08  (   0.151 %)
V  2          = 0.1827E-08  +/-  0.1082E-08  (  59.216 %)
B  2          = 0.1775E-05  +/-  0.2675E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9062E-06  +/-  0.1768E-08  (   0.195 %)
accumulated results Integral      = 0.5189E-06  +/-  0.2028E-08  (   0.391 %)
accumulated results Virtual       = 0.1827E-08  +/-  0.1082E-08  (  59.216 %)
accumulated results Virtual ratio = -.1940E+00  +/-  0.4300E-03  (   0.222 %)
accumulated results ABS virtual   = 0.4828E-06  +/-  0.8688E-09  (   0.180 %)
accumulated results Born          = 0.1775E-05  +/-  0.2675E-08  (   0.151 %)
accumulated results V  2          = 0.1827E-08  +/-  0.1082E-08  (  59.216 %)
accumulated results B  2          = 0.1775E-05  +/-  0.2675E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   209105    23899  0.3345E-06  0.1882E-06  0.8860E+00
channel    2 :     1 T   205417    24412  0.3353E-06  0.2005E-06  0.9642E+00
channel    3 :     2 T    71692     8586  0.1179E-06  0.6263E-07  0.1000E+01
channel    4 :     2 T    73662     8635  0.1185E-06  0.6753E-07  0.9728E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0615330041655524E-007  +/-   1.7684703339448833E-009
 Final result:   5.1889737094325791E-007  +/-   2.0280965701244145E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376491
   Stability unknown:                                          0
   Stable PS point:                                       376491
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376491
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376491
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.23605967    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.63594675    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.00633383    
 Time spent in Integrated_CT :    8.92382812    
 Time spent in Virtuals :    526.892578    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.28437042    
 Time spent in N1body_prefactor :   0.610952139    
 Time spent in Adding_alphas_pdf :    10.3212748    
 Time spent in Reweight_scale :    39.1784592    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.9848862    
 Time spent in Applying_cuts :    4.82070827    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    34.9964027    
 Time spent in Other_tasks :    20.2451172    
 Time spent in Total :    679.136902    
Time in seconds: 787



LOG file for integration channel /P0_uxu_emep/all_G1_71, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33360
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          71
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 224147
  with seed                   49
 Ranmar initialization seeds         124       23006
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.431000D+04 0.431000D+04  1.00
 muF1, muF1_reference: 0.431000D+04 0.431000D+04  1.00
 muF2, muF2_reference: 0.431000D+04 0.431000D+04  1.00
 QES,  QES_reference:  0.431000D+04 0.431000D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4857003665221911E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4857003665221911E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7785916465164412E-006           OLP:   -3.7785916465164479E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9460840737058725E-006           OLP:   -7.9460840737058725E-006
  FINITE:
           OLP:   -7.9513862891272564E-005
           BORN:    1.0889745883690630E-003
  MOMENTA (Exyzm): 
           1   2155.0010050316223        0.0000000000000000        0.0000000000000000        2155.0010050316223        0.0000000000000000     
           2   2155.0010050316223       -0.0000000000000000       -0.0000000000000000       -2155.0010050316223        0.0000000000000000     
           3   2155.0010050316223       -2043.1838027398537       -85.538514115672143        679.78852778764553        0.0000000000000000     
           4   2155.0010050316223        2043.1838027398537        85.538514115672143       -679.78852778764553        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.7785916465164412E-006           OLP:   -3.7785916465164479E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9460840737058708E-006           OLP:   -7.9460840737058725E-006
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9073E-06  +/-  0.1793E-08  (   0.198 %)
Integral      = 0.5128E-06  +/-  0.2053E-08  (   0.400 %)
Virtual       = -.6861E-09  +/-  0.1079E-08  ( 157.267 %)
Virtual ratio = -.1946E+00  +/-  0.4292E-03  (   0.221 %)
ABS virtual   = 0.4833E-06  +/-  0.8642E-09  (   0.179 %)
Born          = 0.1779E-05  +/-  0.2679E-08  (   0.151 %)
V  2          = -.6861E-09  +/-  0.1079E-08  ( 157.267 %)
B  2          = 0.1779E-05  +/-  0.2679E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9073E-06  +/-  0.1793E-08  (   0.198 %)
accumulated results Integral      = 0.5128E-06  +/-  0.2053E-08  (   0.400 %)
accumulated results Virtual       = -.6861E-09  +/-  0.1079E-08  ( 157.267 %)
accumulated results Virtual ratio = -.1946E+00  +/-  0.4292E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4833E-06  +/-  0.8642E-09  (   0.179 %)
accumulated results Born          = 0.1779E-05  +/-  0.2679E-08  (   0.151 %)
accumulated results V  2          = -.6861E-09  +/-  0.1079E-08  ( 157.267 %)
accumulated results B  2          = 0.1779E-05  +/-  0.2679E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   210193    23899  0.3368E-06  0.1859E-06  0.8709E+00
channel    2 :     1 T   204172    24412  0.3322E-06  0.1988E-06  0.9567E+00
channel    3 :     2 T    71695     8586  0.1180E-06  0.6101E-07  0.9881E+00
channel    4 :     2 T    73811     8635  0.1203E-06  0.6705E-07  0.9528E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0725753014074953E-007  +/-   1.7928093520211527E-009
 Final result:   5.1279254235169458E-007  +/-   2.0529685427735803E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    377077
   Stability unknown:                                          0
   Stable PS point:                                       377077
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 377077
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       377077
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.26255941    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.72012377    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.17249203    
 Time spent in Integrated_CT :    9.15924072    
 Time spent in Virtuals :    541.583862    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.43353033    
 Time spent in N1body_prefactor :   0.615285039    
 Time spent in Adding_alphas_pdf :    10.3029099    
 Time spent in Reweight_scale :    38.3860626    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.3002262    
 Time spent in Applying_cuts :    5.03486729    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.1952095    
 Time spent in Other_tasks :    20.8502808    
 Time spent in Total :    695.016602    
Time in seconds: 796



LOG file for integration channel /P0_uxu_emep/all_G1_72, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33367
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          72
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 227304
  with seed                   49
 Ranmar initialization seeds         124       26163
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.432931D+04 0.432931D+04  1.00
 muF1, muF1_reference: 0.432931D+04 0.432931D+04  1.00
 muF2, muF2_reference: 0.432931D+04 0.432931D+04  1.00
 QES,  QES_reference:  0.432931D+04 0.432931D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4825492325859139E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4825492325859139E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6137577715097798E-006           OLP:   -3.6137577715097815E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7956441750019882E-006           OLP:   -7.7956441750020289E-006
  FINITE:
           OLP:   -6.9845673214626887E-005
           BORN:    1.0414701428039697E-003
  MOMENTA (Exyzm): 
           1   2164.6544376453880        0.0000000000000000        0.0000000000000000        2164.6544376453880        0.0000000000000000     
           2   2164.6544376453880       -0.0000000000000000       -0.0000000000000000       -2164.6544376453880        0.0000000000000000     
           3   2164.6544376453880       -1183.5046329243005       -1654.6957531683747        739.61313043450900        0.0000000000000000     
           4   2164.6544376453880        1183.5046329243005        1654.6957531683747       -739.61313043450900        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6137577715097798E-006           OLP:   -3.6137577715097815E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7956441750019899E-006           OLP:   -7.7956441750020289E-006
 REAL 2: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 Error #15 in genps_fks.f  -1.3991502783028409E-006           3
ABS integral  = 0.9086E-06  +/-  0.1934E-08  (   0.213 %)
Integral      = 0.5168E-06  +/-  0.2177E-08  (   0.421 %)
Virtual       = 0.2198E-08  +/-  0.1082E-08  (  49.214 %)
Virtual ratio = -.1937E+00  +/-  0.4294E-03  (   0.222 %)
ABS virtual   = 0.4828E-06  +/-  0.8680E-09  (   0.180 %)
Born          = 0.1776E-05  +/-  0.2677E-08  (   0.151 %)
V  2          = 0.2198E-08  +/-  0.1082E-08  (  49.214 %)
B  2          = 0.1776E-05  +/-  0.2677E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9086E-06  +/-  0.1934E-08  (   0.213 %)
accumulated results Integral      = 0.5168E-06  +/-  0.2177E-08  (   0.421 %)
accumulated results Virtual       = 0.2198E-08  +/-  0.1082E-08  (  49.214 %)
accumulated results Virtual ratio = -.1937E+00  +/-  0.4294E-03  (   0.222 %)
accumulated results ABS virtual   = 0.4828E-06  +/-  0.8680E-09  (   0.180 %)
accumulated results Born          = 0.1776E-05  +/-  0.2677E-08  (   0.151 %)
accumulated results V  2          = 0.2198E-08  +/-  0.1082E-08  (  49.214 %)
accumulated results B  2          = 0.1776E-05  +/-  0.2677E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   209246    23899  0.3353E-06  0.1863E-06  0.8262E+00
channel    2 :     1 T   205464    24412  0.3359E-06  0.2000E-06  0.9057E+00
channel    3 :     2 T    71668     8586  0.1179E-06  0.6231E-07  0.8667E+00
channel    4 :     2 T    73495     8635  0.1196E-06  0.6824E-07  0.9591E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0864823794608629E-007  +/-   1.9341591864685817E-009
 Final result:   5.1677586714103881E-007  +/-   2.1768490555183569E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376493
   Stability unknown:                                          0
   Stable PS point:                                       376493
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376493
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376493
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.25805938    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.87108850    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.13701200    
 Time spent in Integrated_CT :    9.22418213    
 Time spent in Virtuals :    541.481201    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.50997448    
 Time spent in N1body_prefactor :   0.611887991    
 Time spent in Adding_alphas_pdf :    10.2463007    
 Time spent in Reweight_scale :    38.5768394    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.4780769    
 Time spent in Applying_cuts :    5.01784992    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.4054947    
 Time spent in Other_tasks :    20.9678955    
 Time spent in Total :    695.785828    
Time in seconds: 796



LOG file for integration channel /P0_uxu_emep/all_G1_73, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33370
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          73
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 230461
  with seed                   49
 Ranmar initialization seeds         124       29320
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.441334D+04 0.441334D+04  1.00
 muF1, muF1_reference: 0.441334D+04 0.441334D+04  1.00
 muF2, muF2_reference: 0.441334D+04 0.441334D+04  1.00
 QES,  QES_reference:  0.441334D+04 0.441334D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4690248160390216E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4690248160390216E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9709900183950678E-006           OLP:   -3.9709900183950695E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1170837803028827E-006           OLP:   -8.1170837803029589E-006
  FINITE:
           OLP:   -9.4116697514430591E-005
           BORN:    1.1444230086852841E-003
  MOMENTA (Exyzm): 
           1   2206.6706370218917        0.0000000000000000        0.0000000000000000        2206.6706370218917        0.0000000000000000     
           2   2206.6706370218917       -0.0000000000000000       -0.0000000000000000       -2206.6706370218917        0.0000000000000000     
           3   2206.6706370218917       -1566.3956533073356       -1419.9251142590499        632.14921299556306        0.0000000000000000     
           4   2206.6706370218917        1566.3956533073356        1419.9251142590499       -632.14921299556306        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9709900183950678E-006           OLP:   -3.9709900183950695E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1170837803028827E-006           OLP:   -8.1170837803029589E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9088E-06  +/-  0.1897E-08  (   0.209 %)
Integral      = 0.5109E-06  +/-  0.2146E-08  (   0.420 %)
Virtual       = -.2874E-09  +/-  0.1085E-08  ( 377.441 %)
Virtual ratio = -.1943E+00  +/-  0.4301E-03  (   0.221 %)
ABS virtual   = 0.4836E-06  +/-  0.8712E-09  (   0.180 %)
Born          = 0.1777E-05  +/-  0.2682E-08  (   0.151 %)
V  2          = -.2874E-09  +/-  0.1085E-08  ( 377.441 %)
B  2          = 0.1777E-05  +/-  0.2682E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9088E-06  +/-  0.1897E-08  (   0.209 %)
accumulated results Integral      = 0.5109E-06  +/-  0.2146E-08  (   0.420 %)
accumulated results Virtual       = -.2874E-09  +/-  0.1085E-08  ( 377.441 %)
accumulated results Virtual ratio = -.1943E+00  +/-  0.4301E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4836E-06  +/-  0.8712E-09  (   0.180 %)
accumulated results Born          = 0.1777E-05  +/-  0.2682E-08  (   0.151 %)
accumulated results V  2          = -.2874E-09  +/-  0.1085E-08  ( 377.441 %)
accumulated results B  2          = 0.1777E-05  +/-  0.2682E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   209758    23899  0.3373E-06  0.1828E-06  0.8095E+00
channel    2 :     1 T   205141    24412  0.3358E-06  0.1990E-06  0.9375E+00
channel    3 :     2 T    71615     8586  0.1173E-06  0.6158E-07  0.9267E+00
channel    4 :     2 T    73363     8635  0.1184E-06  0.6762E-07  0.9779E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0876812915992680E-007  +/-   1.8965408778710409E-009
 Final result:   5.1091796427803412E-007  +/-   2.1460916165561007E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376325
   Stability unknown:                                          0
   Stable PS point:                                       376325
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376325
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376325
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.24776912    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.74526119    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.10819769    
 Time spent in Integrated_CT :    9.00628662    
 Time spent in Virtuals :    531.922729    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.47617531    
 Time spent in N1body_prefactor :   0.620316207    
 Time spent in Adding_alphas_pdf :    10.3696747    
 Time spent in Reweight_scale :    39.1082764    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.2328091    
 Time spent in Applying_cuts :    4.91113758    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.2914047    
 Time spent in Other_tasks :    20.7219849    
 Time spent in Total :    685.762024    
Time in seconds: 796



LOG file for integration channel /P0_uxu_emep/all_G1_74, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33371
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          74
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 233618
  with seed                   49
 Ranmar initialization seeds         124        2396
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.432570D+04 0.432570D+04  1.00
 muF1, muF1_reference: 0.432570D+04 0.432570D+04  1.00
 muF2, muF2_reference: 0.432570D+04 0.432570D+04  1.00
 QES,  QES_reference:  0.432570D+04 0.432570D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4831370940559652E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4831370940559652E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0208183554220235E-006           OLP:   -4.0208183554220260E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1604648115878023E-006           OLP:   -8.1604648115877888E-006
  FINITE:
           OLP:   -9.5059780190745029E-005
           BORN:    1.1587833306991933E-003
  MOMENTA (Exyzm): 
           1   2162.8496662000939        0.0000000000000000        0.0000000000000000        2162.8496662000939        0.0000000000000000     
           2   2162.8496662000939       -0.0000000000000000       -0.0000000000000000       -2162.8496662000939        0.0000000000000000     
           3   2162.8496662000939       -2016.3199778821877       -497.64550714379453        603.92166263069839        0.0000000000000000     
           4   2162.8496662000939        2016.3199778821877        497.64550714379453       -603.92166263069839        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0208183554220235E-006           OLP:   -4.0208183554220260E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1604648115878023E-006           OLP:   -8.1604648115877888E-006
 REAL 3: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9129E-06  +/-  0.4159E-08  (   0.456 %)
Integral      = 0.5109E-06  +/-  0.4280E-08  (   0.838 %)
Virtual       = 0.9322E-10  +/-  0.1084E-08  ( ******* %)
Virtual ratio = -.1944E+00  +/-  0.4295E-03  (   0.221 %)
ABS virtual   = 0.4836E-06  +/-  0.8703E-09  (   0.180 %)
Born          = 0.1779E-05  +/-  0.2683E-08  (   0.151 %)
V  2          = 0.9322E-10  +/-  0.1084E-08  ( ******* %)
B  2          = 0.1779E-05  +/-  0.2683E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9129E-06  +/-  0.4159E-08  (   0.456 %)
accumulated results Integral      = 0.5109E-06  +/-  0.4280E-08  (   0.838 %)
accumulated results Virtual       = 0.9322E-10  +/-  0.1084E-08  ( ******* %)
accumulated results Virtual ratio = -.1944E+00  +/-  0.4295E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4836E-06  +/-  0.8703E-09  (   0.180 %)
accumulated results Born          = 0.1779E-05  +/-  0.2683E-08  (   0.151 %)
accumulated results V  2          = 0.9322E-10  +/-  0.1084E-08  ( ******* %)
accumulated results B  2          = 0.1779E-05  +/-  0.2683E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   208999    23899  0.3350E-06  0.1843E-06  0.7194E+00
channel    2 :     1 T   205422    24412  0.3363E-06  0.2008E-06  0.9546E+00
channel    3 :     2 T    71762     8586  0.1170E-06  0.6204E-07  0.9210E+00
channel    4 :     2 T    73691     8635  0.1247E-06  0.6368E-07  0.2400E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.1293208399477412E-007  +/-   4.1590489380094249E-009
 Final result:   5.1090171275019974E-007  +/-   4.2801995568845945E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376927
   Stability unknown:                                          0
   Stable PS point:                                       376927
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376927
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376927
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.23148870    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.80943203    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.13261223    
 Time spent in Integrated_CT :    9.14129639    
 Time spent in Virtuals :    535.593811    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.34806871    
 Time spent in N1body_prefactor :   0.615852416    
 Time spent in Adding_alphas_pdf :    10.5079861    
 Time spent in Reweight_scale :    39.2793961    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.4745770    
 Time spent in Applying_cuts :    4.98048210    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.4601440    
 Time spent in Other_tasks :    20.8992310    
 Time spent in Total :    690.474365    
Time in seconds: 796



LOG file for integration channel /P0_uxu_emep/all_G1_75, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33372
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          75
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 236775
  with seed                   49
 Ranmar initialization seeds         124        5553
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.424775D+04 0.424775D+04  1.00
 muF1, muF1_reference: 0.424775D+04 0.424775D+04  1.00
 muF2, muF2_reference: 0.424775D+04 0.424775D+04  1.00
 QES,  QES_reference:  0.424775D+04 0.424775D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4959756398764510E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4801882624529151E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.3573825057899774E-006           OLP:   -3.3573825057899791E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.5567500424617219E-006           OLP:   -7.5567500424617313E-006
  FINITE:
           OLP:   -5.4764223707364407E-005
           BORN:    9.6758384452862731E-004
  MOMENTA (Exyzm): 
           1   2171.9207053037335        0.0000000000000000        0.0000000000000000        2171.9207053037335        0.0000000000000000     
           2   2171.9207053037335       -0.0000000000000000       -0.0000000000000000       -2171.9207053037335        0.0000000000000000     
           3   2171.9207053037335       -1688.3229922592077       -1079.4636912606013        837.59367427531311        0.0000000000000000     
           4   2171.9207053037335        1688.3229922592077        1079.4636912606013       -837.59367427531311        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.3573825057899774E-006           OLP:   -3.3573825057899791E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.5567500424617211E-006           OLP:   -7.5567500424617313E-006
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 Error #15 in genps_fks.f  -1.1920928955078125E-006           4
ABS integral  = 0.9065E-06  +/-  0.1781E-08  (   0.196 %)
Integral      = 0.5163E-06  +/-  0.2040E-08  (   0.395 %)
Virtual       = 0.9690E-09  +/-  0.1081E-08  ( 111.519 %)
Virtual ratio = -.1938E+00  +/-  0.4294E-03  (   0.222 %)
ABS virtual   = 0.4828E-06  +/-  0.8668E-09  (   0.180 %)
Born          = 0.1777E-05  +/-  0.2675E-08  (   0.151 %)
V  2          = 0.9690E-09  +/-  0.1081E-08  ( 111.519 %)
B  2          = 0.1777E-05  +/-  0.2675E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9065E-06  +/-  0.1781E-08  (   0.196 %)
accumulated results Integral      = 0.5163E-06  +/-  0.2040E-08  (   0.395 %)
accumulated results Virtual       = 0.9690E-09  +/-  0.1081E-08  ( 111.519 %)
accumulated results Virtual ratio = -.1938E+00  +/-  0.4294E-03  (   0.222 %)
accumulated results ABS virtual   = 0.4828E-06  +/-  0.8668E-09  (   0.180 %)
accumulated results Born          = 0.1777E-05  +/-  0.2675E-08  (   0.151 %)
accumulated results V  2          = 0.9690E-09  +/-  0.1081E-08  ( 111.519 %)
accumulated results B  2          = 0.1777E-05  +/-  0.2675E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   209273    23899  0.3353E-06  0.1863E-06  0.8786E+00
channel    2 :     1 T   205043    24412  0.3339E-06  0.2004E-06  0.9688E+00
channel    3 :     2 T    72028     8586  0.1169E-06  0.6207E-07  0.9806E+00
channel    4 :     2 T    73527     8635  0.1204E-06  0.6753E-07  0.9570E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0649274784485996E-007  +/-   1.7806908764148788E-009
 Final result:   5.1628669031216852E-007  +/-   2.0402143096741615E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376580
   Stability unknown:                                          0
   Stable PS point:                                       376580
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376580
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376580
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.23511159    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.76332855    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.00796270    
 Time spent in Integrated_CT :    9.09460449    
 Time spent in Virtuals :    531.537781    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.33010578    
 Time spent in N1body_prefactor :   0.620923877    
 Time spent in Adding_alphas_pdf :    10.4044628    
 Time spent in Reweight_scale :    39.2525101    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.1375141    
 Time spent in Applying_cuts :    4.84303093    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.2143478    
 Time spent in Other_tasks :    20.3535156    
 Time spent in Total :    684.795166    
Time in seconds: 801



LOG file for integration channel /P0_uxu_emep/all_G1_76, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33356
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          76
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 239932
  with seed                   49
 Ranmar initialization seeds         124        8710
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.434981D+04 0.434981D+04  1.00
 muF1, muF1_reference: 0.434981D+04 0.434981D+04  1.00
 muF2, muF2_reference: 0.434981D+04 0.434981D+04  1.00
 QES,  QES_reference:  0.434981D+04 0.434981D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4792211539680284E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4792211539680284E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9606981328956116E-006           OLP:   -3.9606981328956040E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1080849889765745E-006           OLP:   -8.1080849889765541E-006
  FINITE:
           OLP:   -9.1869381530553364E-005
           BORN:    1.1414569295680435E-003
  MOMENTA (Exyzm): 
           1   2174.9054526612672        0.0000000000000000        0.0000000000000000        2174.9054526612672        0.0000000000000000     
           2   2174.9054526612672       -0.0000000000000000       -0.0000000000000000       -2174.9054526612672        0.0000000000000000     
           3   2174.9054526612672       -1981.0275183046435       -642.99955179806364        626.33479555501742        0.0000000000000000     
           4   2174.9054526612672        1981.0275183046435        642.99955179806364       -626.33479555501742        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9606981328956116E-006           OLP:   -3.9606981328956040E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -8.1080849889765745E-006           OLP:   -8.1080849889765541E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9097E-06  +/-  0.2340E-08  (   0.257 %)
Integral      = 0.5138E-06  +/-  0.2546E-08  (   0.496 %)
Virtual       = 0.4112E-10  +/-  0.1083E-08  ( ******* %)
Virtual ratio = -.1943E+00  +/-  0.4293E-03  (   0.221 %)
ABS virtual   = 0.4828E-06  +/-  0.8693E-09  (   0.180 %)
Born          = 0.1776E-05  +/-  0.2679E-08  (   0.151 %)
V  2          = 0.4112E-10  +/-  0.1083E-08  ( ******* %)
B  2          = 0.1776E-05  +/-  0.2679E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9097E-06  +/-  0.2340E-08  (   0.257 %)
accumulated results Integral      = 0.5138E-06  +/-  0.2546E-08  (   0.496 %)
accumulated results Virtual       = 0.4112E-10  +/-  0.1083E-08  ( ******* %)
accumulated results Virtual ratio = -.1943E+00  +/-  0.4293E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4828E-06  +/-  0.8693E-09  (   0.180 %)
accumulated results Born          = 0.1776E-05  +/-  0.2679E-08  (   0.151 %)
accumulated results V  2          = 0.4112E-10  +/-  0.1083E-08  ( ******* %)
accumulated results B  2          = 0.1776E-05  +/-  0.2679E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                            1                          2                       3                   4
channel    1 :     1 T   209101    23899  0.3328E-06  0.1841E-06  0.8761E+00
channel    2 :     1 T   205219    24412  0.3377E-06  0.2004E-06  0.6741E+00
channel    3 :     2 T    71967     8586  0.1178E-06  0.6165E-07  0.1000E+01
channel    4 :     2 T    73587     8635  0.1214E-06  0.6765E-07  0.6767E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0968142798110738E-007  +/-   2.3399792936997129E-009
 Final result:   5.1381221826396513E-007  +/-   2.5459799794927868E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376654
   Stability unknown:                                          0
   Stable PS point:                                       376654
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376654
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376654
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.23718870    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.70209455    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.20236492    
 Time spent in Integrated_CT :    9.25726318    
 Time spent in Virtuals :    541.582520    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.45569754    
 Time spent in N1body_prefactor :   0.615538001    
 Time spent in Adding_alphas_pdf :    10.4725113    
 Time spent in Reweight_scale :    38.5276337    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.6231155    
 Time spent in Applying_cuts :    5.02326202    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.2347412    
 Time spent in Other_tasks :    21.1110229    
 Time spent in Total :    696.044983    
Time in seconds: 797



LOG file for integration channel /P0_uxu_emep/all_G1_77, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33386
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          77
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 243089
  with seed                   49
 Ranmar initialization seeds         124       11867
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.431440D+04 0.431440D+04  1.00
 muF1, muF1_reference: 0.431440D+04 0.431440D+04  1.00
 muF2, muF2_reference: 0.431440D+04 0.431440D+04  1.00
 QES,  QES_reference:  0.431440D+04 0.431440D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4849805439876321E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4849805439876321E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0750290043135815E-006           OLP:   -4.0750290043135882E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.2071898699354881E-006           OLP:   -8.2071898699354627E-006
  FINITE:
           OLP:   -9.8204785192748640E-005
           BORN:    1.1744066169879696E-003
  MOMENTA (Exyzm): 
           1   2157.2016763322699        0.0000000000000000        0.0000000000000000        2157.2016763322699        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2157.2016763322699       -0.0000000000000000       -0.0000000000000000       -2157.2016763322699        0.0000000000000000     
           3   2157.2016763322699       -1958.0088399879367       -690.52717753010540        585.57038175795526        0.0000000000000000     
           4   2157.2016763322699        1958.0088399879367        690.52717753010540       -585.57038175795526        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0750290043135815E-006           OLP:   -4.0750290043135882E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.2071898699354881E-006           OLP:   -8.2071898699354627E-006
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9105E-06  +/-  0.1799E-08  (   0.198 %)
Integral      = 0.5184E-06  +/-  0.2058E-08  (   0.397 %)
Virtual       = 0.6970E-09  +/-  0.1086E-08  ( 155.862 %)
Virtual ratio = -.1942E+00  +/-  0.4295E-03  (   0.221 %)
ABS virtual   = 0.4842E-06  +/-  0.8726E-09  (   0.180 %)
Born          = 0.1780E-05  +/-  0.2685E-08  (   0.151 %)
V  2          = 0.6970E-09  +/-  0.1086E-08  ( 155.862 %)
B  2          = 0.1780E-05  +/-  0.2685E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9105E-06  +/-  0.1799E-08  (   0.198 %)
accumulated results Integral      = 0.5184E-06  +/-  0.2058E-08  (   0.397 %)
accumulated results Virtual       = 0.6970E-09  +/-  0.1086E-08  ( 155.862 %)
accumulated results Virtual ratio = -.1942E+00  +/-  0.4295E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4842E-06  +/-  0.8726E-09  (   0.180 %)
accumulated results Born          = 0.1780E-05  +/-  0.2685E-08  (   0.151 %)
accumulated results V  2          = 0.6970E-09  +/-  0.1086E-08  ( 155.862 %)
accumulated results B  2          = 0.1780E-05  +/-  0.2685E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   209656    23899  0.3362E-06  0.1852E-06  0.8762E+00
channel    2 :     1 T   204621    24412  0.3356E-06  0.2002E-06  0.9515E+00
channel    3 :     2 T    72013     8586  0.1182E-06  0.6328E-07  0.9924E+00
channel    4 :     2 T    73587     8635  0.1204E-06  0.6975E-07  0.9714E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.1045966429374447E-007  +/-   1.7986147132794239E-009
 Final result:   5.1837463526313850E-007  +/-   2.0580681627622416E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376509
   Stability unknown:                                          0
   Stable PS point:                                       376509
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376509
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376509
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.25628877    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.71588755    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.18305588    
 Time spent in Integrated_CT :    9.23089600    
 Time spent in Virtuals :    541.560730    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.44277763    
 Time spent in N1body_prefactor :   0.609814882    
 Time spent in Adding_alphas_pdf :    10.4560490    
 Time spent in Reweight_scale :    38.5409775    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.5785732    
 Time spent in Applying_cuts :    4.99684525    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.2545395    
 Time spent in Other_tasks :    21.1849365    
 Time spent in Total :    696.011230    
Time in seconds: 797



LOG file for integration channel /P0_uxu_emep/all_G1_78, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33378
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          78
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 246246
  with seed                   49
 Ranmar initialization seeds         124       15024
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.440337D+04 0.440337D+04  1.00
 muF1, muF1_reference: 0.440337D+04 0.440337D+04  1.00
 muF2, muF2_reference: 0.440337D+04 0.440337D+04  1.00
 QES,  QES_reference:  0.440337D+04 0.440337D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4706137986879806E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4706137986879806E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.2080093337550561E-006           OLP:   -3.2080093337550531E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.4167198300484535E-006           OLP:   -7.4167198300483950E-006
  FINITE:
           OLP:   -4.7137840412997690E-005
           BORN:    9.2453511004045557E-004
  MOMENTA (Exyzm): 
           1   2201.6844343912976        0.0000000000000000        0.0000000000000000        2201.6844343912976        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2201.6844343912976       -0.0000000000000000       -0.0000000000000000       -2201.6844343912976        0.0000000000000000     
           3   2201.6844343912976       -1929.1899123895139       -544.88952681318244        910.34940223233730        0.0000000000000000     
           4   2201.6844343912976        1929.1899123895139        544.88952681318244       -910.34940223233730        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.2080093337550561E-006           OLP:   -3.2080093337550531E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.4167198300484535E-006           OLP:   -7.4167198300483950E-006
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 Error #15 in genps_fks.f  -1.1026859283447266E-006           4
ABS integral  = 0.9106E-06  +/-  0.1959E-08  (   0.215 %)
Integral      = 0.5161E-06  +/-  0.2201E-08  (   0.426 %)
Virtual       = 0.1710E-08  +/-  0.1086E-08  (  63.523 %)
Virtual ratio = -.1940E+00  +/-  0.4290E-03  (   0.221 %)
ABS virtual   = 0.4840E-06  +/-  0.8729E-09  (   0.180 %)
Born          = 0.1780E-05  +/-  0.2685E-08  (   0.151 %)
V  2          = 0.1710E-08  +/-  0.1086E-08  (  63.523 %)
B  2          = 0.1780E-05  +/-  0.2685E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9106E-06  +/-  0.1959E-08  (   0.215 %)
accumulated results Integral      = 0.5161E-06  +/-  0.2201E-08  (   0.426 %)
accumulated results Virtual       = 0.1710E-08  +/-  0.1086E-08  (  63.523 %)
accumulated results Virtual ratio = -.1940E+00  +/-  0.4290E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4840E-06  +/-  0.8729E-09  (   0.180 %)
accumulated results Born          = 0.1780E-05  +/-  0.2685E-08  (   0.151 %)
accumulated results V  2          = 0.1710E-08  +/-  0.1086E-08  (  63.523 %)
accumulated results B  2          = 0.1780E-05  +/-  0.2685E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                            1                          2                      3                    4
channel    1 :     1 T   209078    23899  0.3362E-06  0.1858E-06  0.8043E+00
channel    2 :     1 T   205075    24412  0.3358E-06  0.2021E-06  0.8973E+00
channel    3 :     2 T    72054     8586  0.1187E-06  0.6204E-07  0.9145E+00
channel    4 :     2 T    73672     8635  0.1199E-06  0.6613E-07  0.9483E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.1061467071069418E-007  +/-   1.9593396735843969E-009
 Final result:   5.1611774470618186E-007  +/-   2.2009806769827112E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376680
   Stability unknown:                                          0
   Stable PS point:                                       376680
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376680
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376680
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.22996235    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.69075012    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.23644257    
 Time spent in Integrated_CT :    9.29962158    
 Time spent in Virtuals :    542.271667    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.47900105    
 Time spent in N1body_prefactor :   0.602729678    
 Time spent in Adding_alphas_pdf :    10.5277166    
 Time spent in Reweight_scale :    38.3974533    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.6162949    
 Time spent in Applying_cuts :    5.01651382    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.3163986    
 Time spent in Other_tasks :    21.3291016    
 Time spent in Total :    697.013672    
Time in seconds: 797



LOG file for integration channel /P0_uxu_emep/all_G1_79, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33354
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          79
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 249403
  with seed                   49
 Ranmar initialization seeds         124       18181
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.441213D+04 0.441213D+04  1.00
 muF1, muF1_reference: 0.441213D+04 0.441213D+04  1.00
 muF2, muF2_reference: 0.441213D+04 0.441213D+04  1.00
 QES,  QES_reference:  0.441213D+04 0.441213D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4692176723410525E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4692176723410525E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.2431313125947167E-006           OLP:   -3.2431313125947099E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.4495888217230161E-006           OLP:   -7.4495888217230229E-006
  FINITE:
           OLP:   -4.9356573445675053E-005
           BORN:    9.3465712004513202E-004
  MOMENTA (Exyzm): 
           1   2206.0647350925806        0.0000000000000000        0.0000000000000000        2206.0647350925806        0.0000000000000000     
           2   2206.0647350925806       -0.0000000000000000       -0.0000000000000000       -2206.0647350925806        0.0000000000000000     
           3   2206.0647350925806       -1805.6830086678929       -894.98424181269320        897.34814566818125        0.0000000000000000     
           4   2206.0647350925806        1805.6830086678929        894.98424181269320       -897.34814566818125        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.2431313125947167E-006           OLP:   -3.2431313125947099E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.4495888217230161E-006           OLP:   -7.4495888217230229E-006
 REAL 3: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9072E-06  +/-  0.2300E-08  (   0.254 %)
Integral      = 0.5123E-06  +/-  0.2509E-08  (   0.490 %)
Virtual       = -.5595E-09  +/-  0.1080E-08  ( 193.022 %)
Virtual ratio = -.1947E+00  +/-  0.4297E-03  (   0.221 %)
ABS virtual   = 0.4820E-06  +/-  0.8669E-09  (   0.180 %)
Born          = 0.1773E-05  +/-  0.2672E-08  (   0.151 %)
V  2          = -.5595E-09  +/-  0.1080E-08  ( 193.022 %)
B  2          = 0.1773E-05  +/-  0.2672E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9072E-06  +/-  0.2300E-08  (   0.254 %)
accumulated results Integral      = 0.5123E-06  +/-  0.2509E-08  (   0.490 %)
accumulated results Virtual       = -.5595E-09  +/-  0.1080E-08  ( 193.022 %)
accumulated results Virtual ratio = -.1947E+00  +/-  0.4297E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4820E-06  +/-  0.8669E-09  (   0.180 %)
accumulated results Born          = 0.1773E-05  +/-  0.2672E-08  (   0.151 %)
accumulated results V  2          = -.5595E-09  +/-  0.1080E-08  ( 193.022 %)
accumulated results B  2          = 0.1773E-05  +/-  0.2672E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   209619    23899  0.3386E-06  0.1824E-06  0.5527E+00
channel    2 :     1 T   204737    24412  0.3339E-06  0.2000E-06  0.9747E+00
channel    3 :     2 T    71883     8586  0.1168E-06  0.6274E-07  0.9994E+00
channel    4 :     2 T    73629     8635  0.1178E-06  0.6721E-07  0.9713E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0717536790528285E-007  +/-   2.3004877157699174E-009
 Final result:   5.1231188361387947E-007  +/-   2.5086594013423232E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376259
   Stability unknown:                                          0
   Stable PS point:                                       376259
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376259
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376259
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.24499941    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.73394060    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.25963593    
 Time spent in Integrated_CT :    9.31323242    
 Time spent in Virtuals :    541.399658    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.53980160    
 Time spent in N1body_prefactor :   0.596378088    
 Time spent in Adding_alphas_pdf :    10.5079908    
 Time spent in Reweight_scale :    38.3247681    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.7551069    
 Time spent in Applying_cuts :    5.07335186    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.3712234    
 Time spent in Other_tasks :    21.2726440    
 Time spent in Total :    696.392761    
Time in seconds: 796



LOG file for integration channel /P0_uxu_emep/all_G1_80, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33375
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          80
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 252560
  with seed                   49
 Ranmar initialization seeds         124       21338
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.438490D+04 0.438490D+04  1.00
 muF1, muF1_reference: 0.438490D+04 0.438490D+04  1.00
 muF2, muF2_reference: 0.438490D+04 0.438490D+04  1.00
 QES,  QES_reference:  0.438490D+04 0.438490D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4735684420621687E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4735684420621687E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5216402016033228E-006           OLP:   -3.5216402016033203E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7103235812115460E-006           OLP:   -7.7103235812115139E-006
  FINITE:
           OLP:   -6.5452240246689861E-005
           BORN:    1.0149222376174107E-003
  MOMENTA (Exyzm): 
           1   2192.4483842500799        0.0000000000000000        0.0000000000000000        2192.4483842500799        0.0000000000000000     
           2   2192.4483842500799       -0.0000000000000000       -0.0000000000000000       -2192.4483842500799        0.0000000000000000     
           3   2192.4483842500799       -1941.5985835889246       -651.48598443043170        782.68184461949716        0.0000000000000000     
           4   2192.4483842500799        1941.5985835889246        651.48598443043170       -782.68184461949716        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5216402016033228E-006           OLP:   -3.5216402016033203E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7103235812115444E-006           OLP:   -7.7103235812115139E-006
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
ABS integral  = 0.9096E-06  +/-  0.1926E-08  (   0.212 %)
Integral      = 0.5163E-06  +/-  0.2171E-08  (   0.420 %)
Virtual       = 0.1094E-09  +/-  0.1086E-08  ( 992.114 %)
Virtual ratio = -.1949E+00  +/-  0.4296E-03  (   0.220 %)
ABS virtual   = 0.4839E-06  +/-  0.8719E-09  (   0.180 %)
Born          = 0.1779E-05  +/-  0.2685E-08  (   0.151 %)
V  2          = 0.1094E-09  +/-  0.1086E-08  ( 992.114 %)
B  2          = 0.1779E-05  +/-  0.2685E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9096E-06  +/-  0.1926E-08  (   0.212 %)
accumulated results Integral      = 0.5163E-06  +/-  0.2171E-08  (   0.420 %)
accumulated results Virtual       = 0.1094E-09  +/-  0.1086E-08  ( 992.114 %)
accumulated results Virtual ratio = -.1949E+00  +/-  0.4296E-03  (   0.220 %)
accumulated results ABS virtual   = 0.4839E-06  +/-  0.8719E-09  (   0.180 %)
accumulated results Born          = 0.1779E-05  +/-  0.2685E-08  (   0.151 %)
accumulated results V  2          = 0.1094E-09  +/-  0.1086E-08  ( 992.114 %)
accumulated results B  2          = 0.1779E-05  +/-  0.2685E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                            1                           2                      3                   4
channel    1 :     1 T   209582    23899  0.3368E-06  0.1860E-06  0.8808E+00
channel    2 :     1 T   204624    24412  0.3343E-06  0.2003E-06  0.9535E+00
channel    3 :     2 T    72491     8586  0.1184E-06  0.6319E-07  0.1000E+01
channel    4 :     2 T    73170     8635  0.1201E-06  0.6672E-07  0.7236E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0960012397568229E-007  +/-   1.9261954217740473E-009
 Final result:   5.1625214448036845E-007  +/-   2.1707110682619809E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376740
   Stability unknown:                                          0
   Stable PS point:                                       376740
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376740
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376740
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.26956952    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.73551130    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.19766712    
 Time spent in Integrated_CT :    9.33258057    
 Time spent in Virtuals :    542.462524    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.40465689    
 Time spent in N1body_prefactor :   0.607645154    
 Time spent in Adding_alphas_pdf :    10.4840174    
 Time spent in Reweight_scale :    38.5914841    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.7943192    
 Time spent in Applying_cuts :    5.05291796    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.2974625    
 Time spent in Other_tasks :    21.2871094    
 Time spent in Total :    697.517517    
Time in seconds: 797



LOG file for integration channel /P0_uxu_emep/all_G1_81, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33389
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          81
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 255717
  with seed                   49
 Ranmar initialization seeds         124       24495
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.438882D+04 0.438882D+04  1.00
 muF1, muF1_reference: 0.438882D+04 0.438882D+04  1.00
 muF2, muF2_reference: 0.438882D+04 0.438882D+04  1.00
 QES,  QES_reference:  0.438882D+04 0.438882D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4729399801202828E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 alpha_s value used for the virtuals is (for the first PS point):    7.4762627572055443E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9406989103555479E-006           OLP:   -3.9406989103555572E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0905326204192983E-006           OLP:   -8.0905326204192238E-006
  FINITE:
           OLP:   -9.1063299551521871E-005
           BORN:    1.1356932357978143E-003
  MOMENTA (Exyzm): 
           1   2184.0659470328478        0.0000000000000000        0.0000000000000000        2184.0659470328478        0.0000000000000000     
           2   2184.0659470328478       -0.0000000000000000       -0.0000000000000000       -2184.0659470328478        0.0000000000000000     
           3   2184.0659470328478       -1799.2543744566824       -1062.5849924389147        635.40608340696190        0.0000000000000000     
           4   2184.0659470328478        1799.2543744566824        1062.5849924389147       -635.40608340696190        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9406989103555479E-006           OLP:   -3.9406989103555572E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0905326204193000E-006           OLP:   -8.0905326204192238E-006
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9061E-06  +/-  0.1853E-08  (   0.204 %)
Integral      = 0.5142E-06  +/-  0.2104E-08  (   0.409 %)
Virtual       = -.2607E-09  +/-  0.1080E-08  ( 414.309 %)
Virtual ratio = -.1948E+00  +/-  0.4298E-03  (   0.221 %)
ABS virtual   = 0.4824E-06  +/-  0.8666E-09  (   0.180 %)
Born          = 0.1775E-05  +/-  0.2674E-08  (   0.151 %)
V  2          = -.2607E-09  +/-  0.1080E-08  ( 414.309 %)
B  2          = 0.1775E-05  +/-  0.2674E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9061E-06  +/-  0.1853E-08  (   0.204 %)
accumulated results Integral      = 0.5142E-06  +/-  0.2104E-08  (   0.409 %)
accumulated results Virtual       = -.2607E-09  +/-  0.1080E-08  ( 414.309 %)
accumulated results Virtual ratio = -.1948E+00  +/-  0.4298E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4824E-06  +/-  0.8666E-09  (   0.180 %)
accumulated results Born          = 0.1775E-05  +/-  0.2674E-08  (   0.151 %)
accumulated results V  2          = -.2607E-09  +/-  0.1080E-08  ( 414.309 %)
accumulated results B  2          = 0.1775E-05  +/-  0.2674E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   209288    23899  0.3353E-06  0.1847E-06  0.8470E+00
channel    2 :     1 T   204808    24412  0.3347E-06  0.1999E-06  0.9406E+00
channel    3 :     2 T    71793     8586  0.1172E-06  0.6278E-07  0.1000E+01
channel    4 :     2 T    73983     8635  0.1189E-06  0.6684E-07  0.8954E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0608336042072506E-007  +/-   1.8526008563887448E-009
 Final result:   5.1417074290389273E-007  +/-   2.1038805647423629E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376793
   Stability unknown:                                          0
   Stable PS point:                                       376793
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376793
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376793
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.26431298    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.89164734    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.25814629    
 Time spent in Integrated_CT :    9.22277832    
 Time spent in Virtuals :    543.106262    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.43323183    
 Time spent in N1body_prefactor :   0.615933001    
 Time spent in Adding_alphas_pdf :    10.3800697    
 Time spent in Reweight_scale :    38.5112839    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.5542545    
 Time spent in Applying_cuts :    5.02446079    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.3870964    
 Time spent in Other_tasks :    21.4386597    
 Time spent in Total :    698.088135    
Time in seconds: 797



LOG file for integration channel /P0_uxu_emep/all_G1_82, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33377
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          82
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 258874
  with seed                   49
 Ranmar initialization seeds         124       27652
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.438446D+04 0.438446D+04  1.00
 muF1, muF1_reference: 0.438446D+04 0.438446D+04  1.00
 muF2, muF2_reference: 0.438446D+04 0.438446D+04  1.00
 QES,  QES_reference:  0.438446D+04 0.438446D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4736389875066797E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4736389875066811E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9640295514181029E-006           OLP:   -3.9640295514181071E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1109978506857337E-006           OLP:   -8.1109978506856642E-006
  FINITE:
           OLP:   -9.2950296803321174E-005
           BORN:    1.1424170306992573E-003
  MOMENTA (Exyzm): 
           1   2192.2284227148180        0.0000000000000000        0.0000000000000000        2192.2284227148180        0.0000000000000000     
           2   2192.2284227148180       -0.0000000000000000       -0.0000000000000000       -2192.2284227148180        0.0000000000000000     
           3   2192.2284227148180       -1534.3395013541262       -1433.3361949636358        630.25003304263021        0.0000000000000000     
           4   2192.2284227148180        1534.3395013541262        1433.3361949636358       -630.25003304263021        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9640295514181029E-006           OLP:   -3.9640295514181071E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1109978506857337E-006           OLP:   -8.1109978506856642E-006
 REAL 3: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
ABS integral  = 0.9098E-06  +/-  0.1790E-08  (   0.197 %)
Integral      = 0.5141E-06  +/-  0.2052E-08  (   0.399 %)
Virtual       = -.9553E-10  +/-  0.1087E-08  ( ******* %)
Virtual ratio = -.1943E+00  +/-  0.4296E-03  (   0.221 %)
ABS virtual   = 0.4842E-06  +/-  0.8732E-09  (   0.180 %)
Born          = 0.1780E-05  +/-  0.2685E-08  (   0.151 %)
V  2          = -.9553E-10  +/-  0.1087E-08  ( ******* %)
B  2          = 0.1780E-05  +/-  0.2685E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9098E-06  +/-  0.1790E-08  (   0.197 %)
accumulated results Integral      = 0.5141E-06  +/-  0.2052E-08  (   0.399 %)
accumulated results Virtual       = -.9553E-10  +/-  0.1087E-08  ( ******* %)
accumulated results Virtual ratio = -.1943E+00  +/-  0.4296E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4842E-06  +/-  0.8732E-09  (   0.180 %)
accumulated results Born          = 0.1780E-05  +/-  0.2685E-08  (   0.151 %)
accumulated results V  2          = -.9553E-10  +/-  0.1087E-08  ( ******* %)
accumulated results B  2          = 0.1780E-05  +/-  0.2685E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   209379    23899  0.3364E-06  0.1864E-06  0.8824E+00
channel    2 :     1 T   205016    24412  0.3344E-06  0.1982E-06  0.9680E+00
channel    3 :     2 T    71909     8586  0.1181E-06  0.6242E-07  0.9931E+00
channel    4 :     2 T    73567     8635  0.1208E-06  0.6710E-07  0.9404E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0975956803115295E-007  +/-   1.7903984256169176E-009
 Final result:   5.1412227490780141E-007  +/-   2.0522480720980846E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376750
   Stability unknown:                                          0
   Stable PS point:                                       376750
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376750
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376750
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.25147879    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.68913031    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.20969152    
 Time spent in Integrated_CT :    9.25756836    
 Time spent in Virtuals :    541.527649    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.42417622    
 Time spent in N1body_prefactor :   0.604200482    
 Time spent in Adding_alphas_pdf :    10.4356403    
 Time spent in Reweight_scale :    38.4250565    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.5035286    
 Time spent in Applying_cuts :    4.99129868    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.2225571    
 Time spent in Other_tasks :    21.0238647    
 Time spent in Total :    695.565857    
Time in seconds: 796



LOG file for integration channel /P0_uxu_emep/all_G1_83, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33388
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          83
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 262031
  with seed                   49
 Ranmar initialization seeds         124         728
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.436453D+04 0.436453D+04  1.00
 muF1, muF1_reference: 0.436453D+04 0.436453D+04  1.00
 muF2, muF2_reference: 0.436453D+04 0.436453D+04  1.00
 QES,  QES_reference:  0.436453D+04 0.436453D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4768439109394527E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4768439109394527E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8547686305799870E-006           OLP:   -3.8547686305799913E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0144335735008866E-006           OLP:   -8.0144335735008713E-006
  FINITE:
           OLP:   -8.5561655258799209E-005
           BORN:    1.1109284822068040E-003
  MOMENTA (Exyzm): 
           1   2182.2628501235486        0.0000000000000000        0.0000000000000000        2182.2628501235486        0.0000000000000000     
           2   2182.2628501235486       -0.0000000000000000       -0.0000000000000000       -2182.2628501235486        0.0000000000000000     
           3   2182.2628501235486       -1950.4287452273093       -720.15977535419847        662.92439597752616        0.0000000000000000     
           4   2182.2628501235486        1950.4287452273093        720.15977535419847       -662.92439597752616        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8547686305799870E-006           OLP:   -3.8547686305799913E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -8.0144335735008866E-006           OLP:   -8.0144335735008713E-006
 REAL 2: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9067E-06  +/-  0.1910E-08  (   0.211 %)
Integral      = 0.5176E-06  +/-  0.2153E-08  (   0.416 %)
Virtual       = 0.1456E-08  +/-  0.1085E-08  (  74.554 %)
Virtual ratio = -.1945E+00  +/-  0.4293E-03  (   0.221 %)
ABS virtual   = 0.4834E-06  +/-  0.8719E-09  (   0.180 %)
Born          = 0.1778E-05  +/-  0.2679E-08  (   0.151 %)
V  2          = 0.1456E-08  +/-  0.1085E-08  (  74.554 %)
B  2          = 0.1778E-05  +/-  0.2679E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9067E-06  +/-  0.1910E-08  (   0.211 %)
accumulated results Integral      = 0.5176E-06  +/-  0.2153E-08  (   0.416 %)
accumulated results Virtual       = 0.1456E-08  +/-  0.1085E-08  (  74.554 %)
accumulated results Virtual ratio = -.1945E+00  +/-  0.4293E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4834E-06  +/-  0.8719E-09  (   0.180 %)
accumulated results Born          = 0.1778E-05  +/-  0.2679E-08  (   0.151 %)
accumulated results V  2          = 0.1456E-08  +/-  0.1085E-08  (  74.554 %)
accumulated results B  2          = 0.1778E-05  +/-  0.2679E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   208733    23899  0.3342E-06  0.1850E-06  0.7539E+00
channel    2 :     1 T   205017    24412  0.3355E-06  0.2002E-06  0.9766E+00
channel    3 :     2 T    72118     8586  0.1165E-06  0.6300E-07  0.1000E+01
channel    4 :     2 T    74007     8635  0.1205E-06  0.6942E-07  0.9610E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0670421321504416E-007  +/-   1.9095936544885038E-009
 Final result:   5.1762130074803788E-007  +/-   2.1532260913483290E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376889
   Stability unknown:                                          0
   Stable PS point:                                       376889
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376889
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376889
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.24534070    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.69809914    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.18753672    
 Time spent in Integrated_CT :    9.22326660    
 Time spent in Virtuals :    541.366760    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.53229237    
 Time spent in N1body_prefactor :   0.605203032    
 Time spent in Adding_alphas_pdf :    10.4263115    
 Time spent in Reweight_scale :    38.5288239    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.4676828    
 Time spent in Applying_cuts :    4.98263168    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.5009766    
 Time spent in Other_tasks :    21.0762939    
 Time spent in Total :    695.841248    
Time in seconds: 797



LOG file for integration channel /P0_uxu_emep/all_G1_84, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33349
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          84
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 265188
  with seed                   49
 Ranmar initialization seeds         124        3885
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.441761D+04 0.441761D+04  1.00
 muF1, muF1_reference: 0.441761D+04 0.441761D+04  1.00
 muF2, muF2_reference: 0.441761D+04 0.441761D+04  1.00
 QES,  QES_reference:  0.441761D+04 0.441761D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4683454883329073E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4683454883329073E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6910163099808121E-006           OLP:   -3.6910163099808083E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8665497047907661E-006           OLP:   -7.8665497047907966E-006
  FINITE:
           OLP:   -7.6576511345556548E-005
           BORN:    1.0637357361784354E-003
  MOMENTA (Exyzm): 
           1   2208.8064903246905        0.0000000000000000        0.0000000000000000        2208.8064903246905        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2208.8064903246905       -0.0000000000000000       -0.0000000000000000       -2208.8064903246905        0.0000000000000000     
           3   2208.8064903246905       -1832.2426063129169       -996.47501948633555        727.15244540043614        0.0000000000000000     
           4   2208.8064903246905        1832.2426063129169        996.47501948633555       -727.15244540043614        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6910163099808121E-006           OLP:   -3.6910163099808083E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8665497047907661E-006           OLP:   -7.8665497047907966E-006
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 Error #15 in genps_fks.f  -1.0207295417785645E-006           3
ABS integral  = 0.9104E-06  +/-  0.1909E-08  (   0.210 %)
Integral      = 0.5154E-06  +/-  0.2157E-08  (   0.418 %)
Virtual       = 0.3328E-08  +/-  0.1086E-08  (  32.641 %)
Virtual ratio = -.1938E+00  +/-  0.4300E-03  (   0.222 %)
ABS virtual   = 0.4839E-06  +/-  0.8726E-09  (   0.180 %)
Born          = 0.1777E-05  +/-  0.2683E-08  (   0.151 %)
V  2          = 0.3328E-08  +/-  0.1086E-08  (  32.641 %)
B  2          = 0.1777E-05  +/-  0.2683E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9104E-06  +/-  0.1909E-08  (   0.210 %)
accumulated results Integral      = 0.5154E-06  +/-  0.2157E-08  (   0.418 %)
accumulated results Virtual       = 0.3328E-08  +/-  0.1086E-08  (  32.641 %)
accumulated results Virtual ratio = -.1938E+00  +/-  0.4300E-03  (   0.222 %)
accumulated results ABS virtual   = 0.4839E-06  +/-  0.8726E-09  (   0.180 %)
accumulated results Born          = 0.1777E-05  +/-  0.2683E-08  (   0.151 %)
accumulated results V  2          = 0.3328E-08  +/-  0.1086E-08  (  32.641 %)
accumulated results B  2          = 0.1777E-05  +/-  0.2683E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                            1                          2                       3                   4
channel    1 :     1 T   209838    23899  0.3375E-06  0.1873E-06  0.8818E+00
channel    2 :     1 T   205078    24412  0.3354E-06  0.1990E-06  0.8801E+00
channel    3 :     2 T    71600     8586  0.1186E-06  0.6212E-07  0.9247E+00
channel    4 :     2 T    73355     8635  0.1190E-06  0.6702E-07  0.9216E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.1042322504228269E-007  +/-   1.9090601300470206E-009
 Final result:   5.1540952971780591E-007  +/-   2.1565010336159415E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376559
   Stability unknown:                                          0
   Stable PS point:                                       376559
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376559
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376559
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.24163783    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.83548355    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.05256653    
 Time spent in Integrated_CT :    9.15759277    
 Time spent in Virtuals :    531.437988    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.41284084    
 Time spent in N1body_prefactor :   0.620600879    
 Time spent in Adding_alphas_pdf :    10.3335857    
 Time spent in Reweight_scale :    39.3244553    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.1706038    
 Time spent in Applying_cuts :    4.84395504    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.4595566    
 Time spent in Other_tasks :    20.5182495    
 Time spent in Total :    685.409058    
Time in seconds: 801



LOG file for integration channel /P0_uxu_emep/all_G1_85, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33353
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          85
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 268345
  with seed                   49
 Ranmar initialization seeds         124        7042
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.425388D+04 0.425388D+04  1.00
 muF1, muF1_reference: 0.425388D+04 0.425388D+04  1.00
 muF2, muF2_reference: 0.425388D+04 0.425388D+04  1.00
 QES,  QES_reference:  0.425388D+04 0.425388D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4949558214062434E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4949558214062434E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6870351045118852E-006           OLP:   -3.6870351045118826E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8629194126149097E-006           OLP:   -7.8629194126150690E-006
  FINITE:
           OLP:   -7.2592986683687484E-005
           BORN:    1.0625883691188765E-003
  MOMENTA (Exyzm): 
           1   2126.9399170504230        0.0000000000000000        0.0000000000000000        2126.9399170504230        0.0000000000000000     
           2   2126.9399170504230       -0.0000000000000000       -0.0000000000000000       -2126.9399170504230        0.0000000000000000     
           3   2126.9399170504230       -1264.2600703951582       -1559.9173912677627        701.55371680810549        0.0000000000000000     
           4   2126.9399170504230        1264.2600703951582        1559.9173912677627       -701.55371680810549        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6870351045118852E-006           OLP:   -3.6870351045118826E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -7.8629194126149097E-006           OLP:   -7.8629194126150690E-006
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9084E-06  +/-  0.1851E-08  (   0.204 %)
Integral      = 0.5161E-06  +/-  0.2104E-08  (   0.408 %)
Virtual       = 0.8399E-09  +/-  0.1081E-08  ( 128.642 %)
Virtual ratio = -.1943E+00  +/-  0.4298E-03  (   0.221 %)
ABS virtual   = 0.4824E-06  +/-  0.8671E-09  (   0.180 %)
Born          = 0.1773E-05  +/-  0.2666E-08  (   0.150 %)
V  2          = 0.8399E-09  +/-  0.1081E-08  ( 128.642 %)
B  2          = 0.1773E-05  +/-  0.2666E-08  (   0.150 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9084E-06  +/-  0.1851E-08  (   0.204 %)
accumulated results Integral      = 0.5161E-06  +/-  0.2104E-08  (   0.408 %)
accumulated results Virtual       = 0.8399E-09  +/-  0.1081E-08  ( 128.642 %)
accumulated results Virtual ratio = -.1943E+00  +/-  0.4298E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4824E-06  +/-  0.8671E-09  (   0.180 %)
accumulated results Born          = 0.1773E-05  +/-  0.2666E-08  (   0.150 %)
accumulated results V  2          = 0.8399E-09  +/-  0.1081E-08  ( 128.642 %)
accumulated results B  2          = 0.1773E-05  +/-  0.2666E-08  (   0.150 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   209037    23899  0.3356E-06  0.1851E-06  0.8263E+00
channel    2 :     1 T   204956    24412  0.3348E-06  0.1990E-06  0.9311E+00
channel    3 :     2 T    72274     8586  0.1183E-06  0.6367E-07  0.1000E+01
channel    4 :     2 T    73603     8635  0.1197E-06  0.6830E-07  0.9671E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0836764298942786E-007  +/-   1.8514637507915056E-009
 Final result:   5.1613752565923344E-007  +/-   2.1037787688810261E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376375
   Stability unknown:                                          0
   Stable PS point:                                       376375
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376375
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376375
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.25269270    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.78743124    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.05326891    
 Time spent in Integrated_CT :    9.22558594    
 Time spent in Virtuals :    530.840088    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.35607815    
 Time spent in N1body_prefactor :   0.650353909    
 Time spent in Adding_alphas_pdf :    10.3843098    
 Time spent in Reweight_scale :    39.3139763    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.2255726    
 Time spent in Applying_cuts :    4.85930824    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.7284927    
 Time spent in Other_tasks :    20.8776245    
 Time spent in Total :    685.554810    
Time in seconds: 797



LOG file for integration channel /P0_uxu_emep/all_G1_86, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33362
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          86
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 271502
  with seed                   49
 Ranmar initialization seeds         124       10199
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.429286D+04 0.429286D+04  1.00
 muF1, muF1_reference: 0.429286D+04 0.429286D+04  1.00
 muF2, muF2_reference: 0.429286D+04 0.429286D+04  1.00
 QES,  QES_reference:  0.429286D+04 0.429286D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4885118693266278E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4758083285909702E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8213174917976664E-006           OLP:   -3.8213174917976545E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9845165730092744E-006           OLP:   -7.9845165730092846E-006
  FINITE:
           OLP:   -8.3620279616857272E-005
           BORN:    1.1012880014420890E-003
  MOMENTA (Exyzm): 
           1   2185.4770899658865        0.0000000000000000        0.0000000000000000        2185.4770899658865        0.0000000000000000     
           2   2185.4770899658865       -0.0000000000000000       -0.0000000000000000       -2185.4770899658865        0.0000000000000000     
           3   2185.4770899658865       -2064.7049096982519       -240.09087508298919        675.02601308066426        0.0000000000000000     
           4   2185.4770899658865        2064.7049096982519        240.09087508298919       -675.02601308066426        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8213174917976664E-006           OLP:   -3.8213174917976545E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.9845165730092727E-006           OLP:   -7.9845165730092846E-006
 REAL 2: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9111E-06  +/-  0.1843E-08  (   0.202 %)
Integral      = 0.5167E-06  +/-  0.2099E-08  (   0.406 %)
Virtual       = 0.1013E-08  +/-  0.1087E-08  ( 107.255 %)
Virtual ratio = -.1942E+00  +/-  0.4294E-03  (   0.221 %)
ABS virtual   = 0.4845E-06  +/-  0.8730E-09  (   0.180 %)
Born          = 0.1779E-05  +/-  0.2673E-08  (   0.150 %)
V  2          = 0.1013E-08  +/-  0.1087E-08  ( 107.255 %)
B  2          = 0.1779E-05  +/-  0.2673E-08  (   0.150 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9111E-06  +/-  0.1843E-08  (   0.202 %)
accumulated results Integral      = 0.5167E-06  +/-  0.2099E-08  (   0.406 %)
accumulated results Virtual       = 0.1013E-08  +/-  0.1087E-08  ( 107.255 %)
accumulated results Virtual ratio = -.1942E+00  +/-  0.4294E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4845E-06  +/-  0.8730E-09  (   0.180 %)
accumulated results Born          = 0.1779E-05  +/-  0.2673E-08  (   0.150 %)
accumulated results V  2          = 0.1013E-08  +/-  0.1087E-08  ( 107.255 %)
accumulated results B  2          = 0.1779E-05  +/-  0.2673E-08  (   0.150 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   210169    23899  0.3392E-06  0.1861E-06  0.8419E+00
channel    2 :     1 T   204925    24412  0.3352E-06  0.2001E-06  0.9497E+00
channel    3 :     2 T    71738     8586  0.1167E-06  0.6313E-07  0.9930E+00
channel    4 :     2 T    73038     8635  0.1201E-06  0.6734E-07  0.9455E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.1107628022183135E-007  +/-   1.8433589896730684E-009
 Final result:   5.1665035796230691E-007  +/-   2.0985222971418257E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    377197
   Stability unknown:                                          0
   Stable PS point:                                       377197
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 377197
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       377197
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.23725390    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.76326704    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.06074476    
 Time spent in Integrated_CT :    9.07757568    
 Time spent in Virtuals :    529.494324    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.34979963    
 Time spent in N1body_prefactor :   0.614933610    
 Time spent in Adding_alphas_pdf :    10.3770142    
 Time spent in Reweight_scale :    39.1051712    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.4651203    
 Time spent in Applying_cuts :    4.81070900    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.2415009    
 Time spent in Other_tasks :    20.7388916    
 Time spent in Total :    683.336365    
Time in seconds: 801



LOG file for integration channel /P0_uxu_emep/all_G1_87, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33368
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          87
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 274659
  with seed                   49
 Ranmar initialization seeds         124       13356
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.432067D+04 0.432067D+04  1.00
 muF1, muF1_reference: 0.432067D+04 0.432067D+04  1.00
 muF2, muF2_reference: 0.432067D+04 0.432067D+04  1.00
 QES,  QES_reference:  0.432067D+04 0.432067D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4839578913117377E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4839578913117377E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.1539165842339879E-006           OLP:   -4.1539165842339905E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.2742943861561407E-006           OLP:   -8.2742943861561712E-006
  FINITE:
           OLP:   -1.0340244322119912E-004
           BORN:    1.1971416934153086E-003
  MOMENTA (Exyzm): 
           1   2160.3327401397246        0.0000000000000000        0.0000000000000000        2160.3327401397246        0.0000000000000000     
           2   2160.3327401397246       -0.0000000000000000       -0.0000000000000000       -2160.3327401397246        0.0000000000000000     
           3   2160.3327401397246       -2026.3899975513680       -494.46291988336156        562.39447614979031        0.0000000000000000     
           4   2160.3327401397246        2026.3899975513680        494.46291988336156       -562.39447614979031        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.1539165842339879E-006           OLP:   -4.1539165842339905E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.2742943861561390E-006           OLP:   -8.2742943861561712E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9083E-06  +/-  0.1818E-08  (   0.200 %)
Integral      = 0.5151E-06  +/-  0.2075E-08  (   0.403 %)
Virtual       = -.8141E-09  +/-  0.1091E-08  ( 133.993 %)
Virtual ratio = -.1947E+00  +/-  0.4296E-03  (   0.221 %)
ABS virtual   = 0.4849E-06  +/-  0.8775E-09  (   0.181 %)
Born          = 0.1782E-05  +/-  0.2694E-08  (   0.151 %)
V  2          = -.8141E-09  +/-  0.1091E-08  ( 133.993 %)
B  2          = 0.1782E-05  +/-  0.2694E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9083E-06  +/-  0.1818E-08  (   0.200 %)
accumulated results Integral      = 0.5151E-06  +/-  0.2075E-08  (   0.403 %)
accumulated results Virtual       = -.8141E-09  +/-  0.1091E-08  ( 133.993 %)
accumulated results Virtual ratio = -.1947E+00  +/-  0.4296E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4849E-06  +/-  0.8775E-09  (   0.181 %)
accumulated results Born          = 0.1782E-05  +/-  0.2694E-08  (   0.151 %)
accumulated results V  2          = -.8141E-09  +/-  0.1091E-08  ( 133.993 %)
accumulated results B  2          = 0.1782E-05  +/-  0.2694E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                            1                           2                      3                   4
channel    1 :     1 T   209498    23899  0.3358E-06  0.1852E-06  0.8804E+00
channel    2 :     1 T   204987    24412  0.3351E-06  0.1988E-06  0.9543E+00
channel    3 :     2 T    72061     8586  0.1173E-06  0.6184E-07  0.1000E+01
channel    4 :     2 T    73330     8635  0.1201E-06  0.6917E-07  0.9211E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0831830694828702E-007  +/-   1.8181639409325730E-009
 Final result:   5.1506907031501365E-007  +/-   2.0749686898479945E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376860
   Stability unknown:                                          0
   Stable PS point:                                       376860
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376860
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376860
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.24356985    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.82961750    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.10636234    
 Time spent in Integrated_CT :    9.13262939    
 Time spent in Virtuals :    534.273071    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.35385895    
 Time spent in N1body_prefactor :   0.621158421    
 Time spent in Adding_alphas_pdf :    10.4507694    
 Time spent in Reweight_scale :    39.3068390    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.5423164    
 Time spent in Applying_cuts :    4.88116550    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.6599197    
 Time spent in Other_tasks :    21.0603027    
 Time spent in Total :    689.461548    
Time in seconds: 797



LOG file for integration channel /P0_uxu_emep/all_G1_88, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33358
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          88
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 277816
  with seed                   49
 Ranmar initialization seeds         124       16513
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.440354D+04 0.440354D+04  1.00
 muF1, muF1_reference: 0.440354D+04 0.440354D+04  1.00
 muF2, muF2_reference: 0.440354D+04 0.440354D+04  1.00
 QES,  QES_reference:  0.440354D+04 0.440354D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4705858576421147E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 alpha_s value used for the virtuals is (for the first PS point):    7.4737169404672329E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0217389574367189E-006           OLP:   -4.0217389574367231E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1612536687733480E-006           OLP:   -8.1612536687733514E-006
  FINITE:
           OLP:   -9.6613866023966940E-005
           BORN:    1.1590486444175807E-003
  MOMENTA (Exyzm): 
           1   2191.9853947471966        0.0000000000000000        0.0000000000000000        2191.9853947471966        0.0000000000000000     
           2   2191.9853947471966       -0.0000000000000000       -0.0000000000000000       -2191.9853947471966        0.0000000000000000     
           3   2191.9853947471966       -2051.9528559788255       -469.07912209451126        611.76320978006527        0.0000000000000000     
           4   2191.9853947471966        2051.9528559788255        469.07912209451126       -611.76320978006527        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0217389574367189E-006           OLP:   -4.0217389574367231E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1612536687733480E-006           OLP:   -8.1612536687733514E-006
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9076E-06  +/-  0.1786E-08  (   0.197 %)
Integral      = 0.5122E-06  +/-  0.2048E-08  (   0.400 %)
Virtual       = -.9184E-09  +/-  0.1086E-08  ( 118.218 %)
Virtual ratio = -.1947E+00  +/-  0.4296E-03  (   0.221 %)
ABS virtual   = 0.4827E-06  +/-  0.8733E-09  (   0.181 %)
Born          = 0.1774E-05  +/-  0.2683E-08  (   0.151 %)
V  2          = -.9184E-09  +/-  0.1086E-08  ( 118.218 %)
B  2          = 0.1774E-05  +/-  0.2683E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9076E-06  +/-  0.1786E-08  (   0.197 %)
accumulated results Integral      = 0.5122E-06  +/-  0.2048E-08  (   0.400 %)
accumulated results Virtual       = -.9184E-09  +/-  0.1086E-08  ( 118.218 %)
accumulated results Virtual ratio = -.1947E+00  +/-  0.4296E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4827E-06  +/-  0.8733E-09  (   0.181 %)
accumulated results Born          = 0.1774E-05  +/-  0.2683E-08  (   0.151 %)
accumulated results V  2          = -.9184E-09  +/-  0.1086E-08  ( 118.218 %)
accumulated results B  2          = 0.1774E-05  +/-  0.2683E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   209589    23899  0.3355E-06  0.1832E-06  0.8894E+00
channel    2 :     1 T   205134    24412  0.3345E-06  0.1997E-06  0.9635E+00
channel    3 :     2 T    71596     8586  0.1171E-06  0.6193E-07  0.1000E+01
channel    4 :     2 T    73553     8635  0.1206E-06  0.6734E-07  0.9297E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0756605020450974E-007  +/-   1.7864905424658844E-009
 Final result:   5.1220006519396871E-007  +/-   2.0479618343865013E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376397
   Stability unknown:                                          0
   Stable PS point:                                       376397
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376397
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376397
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.25291181    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.82481050    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.13907814    
 Time spent in Integrated_CT :    9.14312744    
 Time spent in Virtuals :    531.630920    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.31375504    
 Time spent in N1body_prefactor :   0.612498403    
 Time spent in Adding_alphas_pdf :    10.4786663    
 Time spent in Reweight_scale :    39.1857224    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.3770161    
 Time spent in Applying_cuts :    4.89134407    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.3869095    
 Time spent in Other_tasks :    20.7155151    
 Time spent in Total :    685.952271    
Time in seconds: 797



LOG file for integration channel /P0_uxu_emep/all_G1_89, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33373
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          89
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 280973
  with seed                   49
 Ranmar initialization seeds         124       19670
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.428946D+04 0.428946D+04  1.00
 muF1, muF1_reference: 0.428946D+04 0.428946D+04  1.00
 muF2, muF2_reference: 0.428946D+04 0.428946D+04  1.00
 QES,  QES_reference:  0.428946D+04 0.428946D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4890714656860369E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4890714656860369E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0107992330970097E-006           OLP:   -4.0107992330970156E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1517819814056477E-006           OLP:   -8.1517819814056409E-006
  FINITE:
           OLP:   -9.3492352724193256E-005
           BORN:    1.1558958608081931E-003
  MOMENTA (Exyzm): 
           1   2144.7299805517036        0.0000000000000000        0.0000000000000000        2144.7299805517036        0.0000000000000000     
           2   2144.7299805517036       -0.0000000000000000       -0.0000000000000000       -2144.7299805517036        0.0000000000000000     
           3   2144.7299805517036       -1896.8995100665468       -799.54235321406838        601.97256050713531        0.0000000000000000     
           4   2144.7299805517036        1896.8995100665468        799.54235321406838       -601.97256050713531        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0107992330970097E-006           OLP:   -4.0107992330970156E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1517819814056460E-006           OLP:   -8.1517819814056409E-006
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9064E-06  +/-  0.2014E-08  (   0.222 %)
Integral      = 0.5124E-06  +/-  0.2249E-08  (   0.439 %)
Virtual       = -.9021E-09  +/-  0.1086E-08  ( 120.344 %)
Virtual ratio = -.1947E+00  +/-  0.4298E-03  (   0.221 %)
ABS virtual   = 0.4837E-06  +/-  0.8722E-09  (   0.180 %)
Born          = 0.1779E-05  +/-  0.2684E-08  (   0.151 %)
V  2          = -.9021E-09  +/-  0.1086E-08  ( 120.344 %)
B  2          = 0.1779E-05  +/-  0.2684E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9064E-06  +/-  0.2014E-08  (   0.222 %)
accumulated results Integral      = 0.5124E-06  +/-  0.2249E-08  (   0.439 %)
accumulated results Virtual       = -.9021E-09  +/-  0.1086E-08  ( 120.344 %)
accumulated results Virtual ratio = -.1947E+00  +/-  0.4298E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4837E-06  +/-  0.8722E-09  (   0.180 %)
accumulated results Born          = 0.1779E-05  +/-  0.2684E-08  (   0.151 %)
accumulated results V  2          = -.9021E-09  +/-  0.1086E-08  ( 120.344 %)
accumulated results B  2          = 0.1779E-05  +/-  0.2684E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   209274    23899  0.3359E-06  0.1847E-06  0.8746E+00
channel    2 :     1 T   204927    24412  0.3334E-06  0.1990E-06  0.9721E+00
channel    3 :     2 T    72000     8586  0.1177E-06  0.6267E-07  0.9926E+00
channel    4 :     2 T    73673     8635  0.1193E-06  0.6604E-07  0.6288E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0641062817753083E-007  +/-   2.0144535104211560E-009
 Final result:   5.1238740551665104E-007  +/-   2.2486742255739421E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376878
   Stability unknown:                                          0
   Stable PS point:                                       376878
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376878
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376878
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.26462555    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.83517599    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.09296703    
 Time spent in Integrated_CT :    9.19842529    
 Time spent in Virtuals :    534.222473    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.50638676    
 Time spent in N1body_prefactor :   0.619122744    
 Time spent in Adding_alphas_pdf :    10.4723415    
 Time spent in Reweight_scale :    39.3255768    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.6435852    
 Time spent in Applying_cuts :    4.87912178    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.6862183    
 Time spent in Other_tasks :    20.7781982    
 Time spent in Total :    689.524231    
Time in seconds: 796



LOG file for integration channel /P0_uxu_emep/all_G1_90, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       33357
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          90
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 284130
  with seed                   49
 Ranmar initialization seeds         124       22827
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.442756D+04 0.442756D+04  1.00
 muF1, muF1_reference: 0.442756D+04 0.442756D+04  1.00
 muF2, muF2_reference: 0.442756D+04 0.442756D+04  1.00
 QES,  QES_reference:  0.442756D+04 0.442756D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4667663567881418E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4667663567881418E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6386116088726091E-006           OLP:   -3.6386116088726175E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8185234068577811E-006           OLP:   -7.8185234068576896E-006
  FINITE:
           OLP:   -7.3548343796535045E-005
           BORN:    1.0486329166211751E-003
  MOMENTA (Exyzm): 
           1   2213.7809798329322        0.0000000000000000        0.0000000000000000        2213.7809798329322        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2213.7809798329322       -0.0000000000000000       -0.0000000000000000       -2213.7809798329322        0.0000000000000000     
           3   2213.7809798329322       -1720.4826586820341       -1175.6284305110071        747.43791796956918        0.0000000000000000     
           4   2213.7809798329322        1720.4826586820341        1175.6284305110071       -747.43791796956918        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6386116088726091E-006           OLP:   -3.6386116088726175E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8185234068577811E-006           OLP:   -7.8185234068576896E-006
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9109E-06  +/-  0.1908E-08  (   0.210 %)
Integral      = 0.5143E-06  +/-  0.2157E-08  (   0.419 %)
Virtual       = 0.3853E-10  +/-  0.1091E-08  ( ******* %)
Virtual ratio = -.1950E+00  +/-  0.4298E-03  (   0.220 %)
ABS virtual   = 0.4850E-06  +/-  0.8773E-09  (   0.181 %)
Born          = 0.1782E-05  +/-  0.2690E-08  (   0.151 %)
V  2          = 0.3853E-10  +/-  0.1091E-08  ( ******* %)
B  2          = 0.1782E-05  +/-  0.2690E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9109E-06  +/-  0.1908E-08  (   0.210 %)
accumulated results Integral      = 0.5143E-06  +/-  0.2157E-08  (   0.419 %)
accumulated results Virtual       = 0.3853E-10  +/-  0.1091E-08  ( ******* %)
accumulated results Virtual ratio = -.1950E+00  +/-  0.4298E-03  (   0.220 %)
accumulated results ABS virtual   = 0.4850E-06  +/-  0.8773E-09  (   0.181 %)
accumulated results Born          = 0.1782E-05  +/-  0.2690E-08  (   0.151 %)
accumulated results V  2          = 0.3853E-10  +/-  0.1091E-08  ( ******* %)
accumulated results B  2          = 0.1782E-05  +/-  0.2690E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   208890    23899  0.3368E-06  0.1856E-06  0.8481E+00
channel    2 :     1 T   205350    24412  0.3369E-06  0.1991E-06  0.9038E+00
channel    3 :     2 T    71888     8586  0.1182E-06  0.6189E-07  0.9051E+00
channel    4 :     2 T    73746     8635  0.1190E-06  0.6773E-07  0.9840E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.1085293843025494E-007  +/-   1.9083166090462954E-009
 Final result:   5.1429139520949233E-007  +/-   2.1566438549776136E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376759
   Stability unknown:                                          0
   Stable PS point:                                       376759
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376759
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376759
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.24020898    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    5.90802383    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    5.07095051    
 Time spent in Integrated_CT :    9.02178955    
 Time spent in Virtuals :    532.499634    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.23993778    
 Time spent in N1body_prefactor :   0.602182925    
 Time spent in Adding_alphas_pdf :    10.2799740    
 Time spent in Reweight_scale :    39.2304459    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.5017176    
 Time spent in Applying_cuts :    4.83667469    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.3063736    
 Time spent in Other_tasks :    20.3412476    
 Time spent in Total :    686.079163    
Time in seconds: 801



LOG file for integration channel /P0_uxu_emep/all_G1_91, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       10663
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          91
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 287287
  with seed                   49
 Ranmar initialization seeds         124       25984
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.438151D+04 0.438151D+04  1.00
 muF1, muF1_reference: 0.438151D+04 0.438151D+04  1.00
 muF2, muF2_reference: 0.438151D+04 0.438151D+04  1.00
 QES,  QES_reference:  0.438151D+04 0.438151D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4741119265204645E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4741119265204645E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8457981542801277E-006           OLP:   -3.8457981542801286E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0064249946909467E-006           OLP:   -8.0064249946909129E-006
  FINITE:
           OLP:   -8.5408008463583410E-005
           BORN:    1.1083432277919428E-003
  MOMENTA (Exyzm): 
           1   2190.7544656678206        0.0000000000000000        0.0000000000000000        2190.7544656678206        0.0000000000000000     
           2   2190.7544656678206       -0.0000000000000000       -0.0000000000000000       -2190.7544656678206        0.0000000000000000     
           3   2190.7544656678206       -2026.4573017652756       -495.98999869660753        668.48324897385112        0.0000000000000000     
           4   2190.7544656678206        2026.4573017652756        495.98999869660753       -668.48324897385112        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.8457981542801277E-006           OLP:   -3.8457981542801286E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.0064249946909467E-006           OLP:   -8.0064249946909129E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9085E-06  +/-  0.1909E-08  (   0.210 %)
Integral      = 0.5138E-06  +/-  0.2156E-08  (   0.420 %)
Virtual       = -.1911E-09  +/-  0.1085E-08  ( 567.647 %)
Virtual ratio = -.1949E+00  +/-  0.4295E-03  (   0.220 %)
ABS virtual   = 0.4834E-06  +/-  0.8712E-09  (   0.180 %)
Born          = 0.1779E-05  +/-  0.2689E-08  (   0.151 %)
V  2          = -.1911E-09  +/-  0.1085E-08  ( 567.647 %)
B  2          = 0.1779E-05  +/-  0.2689E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9085E-06  +/-  0.1909E-08  (   0.210 %)
accumulated results Integral      = 0.5138E-06  +/-  0.2156E-08  (   0.420 %)
accumulated results Virtual       = -.1911E-09  +/-  0.1085E-08  ( 567.647 %)
accumulated results Virtual ratio = -.1949E+00  +/-  0.4295E-03  (   0.220 %)
accumulated results ABS virtual   = 0.4834E-06  +/-  0.8712E-09  (   0.180 %)
accumulated results Born          = 0.1779E-05  +/-  0.2689E-08  (   0.151 %)
accumulated results V  2          = -.1911E-09  +/-  0.1085E-08  ( 567.647 %)
accumulated results B  2          = 0.1779E-05  +/-  0.2689E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   208828    23899  0.3356E-06  0.1868E-06  0.8460E+00
channel    2 :     1 T   205025    24412  0.3344E-06  0.1987E-06  0.9589E+00
channel    3 :     2 T    71985     8586  0.1174E-06  0.6182E-07  0.8340E+00
channel    4 :     2 T    74034     8635  0.1212E-06  0.6649E-07  0.9003E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0854826644285776E-007  +/-   1.9092581480029014E-009
 Final result:   5.1379438328455904E-007  +/-   2.1559523041334055E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376827
   Stability unknown:                                          0
   Stable PS point:                                       376827
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376827
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376827
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.01956797    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    9.03599930    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.30227232    
 Time spent in Integrated_CT :    12.7581177    
 Time spent in Virtuals :    755.732971    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    12.1408672    
 Time spent in N1body_prefactor :    1.05361784    
 Time spent in Adding_alphas_pdf :    14.4019127    
 Time spent in Reweight_scale :    60.8742371    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.9821224    
 Time spent in Applying_cuts :    7.31946898    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    64.0022278    
 Time spent in Other_tasks :    33.4783325    
 Time spent in Total :    1001.10175    
Time in seconds: 1027



LOG file for integration channel /P0_uxu_emep/all_G1_92, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       10670
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          92
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 290444
  with seed                   49
 Ranmar initialization seeds         124       29141
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.438705D+04 0.438705D+04  1.00
 muF1, muF1_reference: 0.438705D+04 0.438705D+04  1.00
 muF2, muF2_reference: 0.438705D+04 0.438705D+04  1.00
 QES,  QES_reference:  0.438705D+04 0.438705D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4732239359083255E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4732239359083255E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5694198188587938E-006           OLP:   -3.5694198188587832E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7546717975377284E-006           OLP:   -7.7546717975377758E-006
  FINITE:
           OLP:   -6.8407751818271576E-005
           BORN:    1.0286921270102421E-003
  MOMENTA (Exyzm): 
           1   2193.5229328075379        0.0000000000000000        0.0000000000000000        2193.5229328075379        0.0000000000000000     
           2   2193.5229328075379       -0.0000000000000000       -0.0000000000000000       -2193.5229328075379        0.0000000000000000     
           3   2193.5229328075379       -2054.7948380977905       -57.981988769349776        765.50579296149567        0.0000000000000000     
           4   2193.5229328075379        2054.7948380977905        57.981988769349776       -765.50579296149567        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5694198188587938E-006           OLP:   -3.5694198188587832E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7546717975377284E-006           OLP:   -7.7546717975377758E-006
 REAL 1: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9086E-06  +/-  0.1834E-08  (   0.202 %)
Integral      = 0.5133E-06  +/-  0.2090E-08  (   0.407 %)
Virtual       = -.2662E-09  +/-  0.1085E-08  ( 407.593 %)
Virtual ratio = -.1948E+00  +/-  0.4293E-03  (   0.220 %)
ABS virtual   = 0.4842E-06  +/-  0.8711E-09  (   0.180 %)
Born          = 0.1781E-05  +/-  0.2686E-08  (   0.151 %)
V  2          = -.2662E-09  +/-  0.1085E-08  ( 407.593 %)
B  2          = 0.1781E-05  +/-  0.2686E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9086E-06  +/-  0.1834E-08  (   0.202 %)
accumulated results Integral      = 0.5133E-06  +/-  0.2090E-08  (   0.407 %)
accumulated results Virtual       = -.2662E-09  +/-  0.1085E-08  ( 407.593 %)
accumulated results Virtual ratio = -.1948E+00  +/-  0.4293E-03  (   0.220 %)
accumulated results ABS virtual   = 0.4842E-06  +/-  0.8711E-09  (   0.180 %)
accumulated results Born          = 0.1781E-05  +/-  0.2686E-08  (   0.151 %)
accumulated results V  2          = -.2662E-09  +/-  0.1085E-08  ( 407.593 %)
accumulated results B  2          = 0.1781E-05  +/-  0.2686E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   209043    23899  0.3358E-06  0.1857E-06  0.8622E+00
channel    2 :     1 T   204682    24412  0.3348E-06  0.1978E-06  0.9535E+00
channel    3 :     2 T    72096     8586  0.1171E-06  0.6176E-07  0.9717E+00
channel    4 :     2 T    74050     8635  0.1209E-06  0.6803E-07  0.9242E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0858848612412730E-007  +/-   1.8342851897280550E-009
 Final result:   5.1330716491542458E-007  +/-   2.0900933409151154E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376897
   Stability unknown:                                          0
   Stable PS point:                                       376897
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376897
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376897
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.02995753    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    9.02453804    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.33669472    
 Time spent in Integrated_CT :    12.8171997    
 Time spent in Virtuals :    753.302490    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    12.2251244    
 Time spent in N1body_prefactor :    1.06717646    
 Time spent in Adding_alphas_pdf :    14.2419186    
 Time spent in Reweight_scale :    60.3418541    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.1808605    
 Time spent in Applying_cuts :    7.54081774    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    63.4847565    
 Time spent in Other_tasks :    33.8745728    
 Time spent in Total :    998.467957    
Time in seconds: 1024



LOG file for integration channel /P0_uxu_emep/all_G1_93, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       10672
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          93
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 293601
  with seed                   49
 Ranmar initialization seeds         124        2217
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.426172D+04 0.426172D+04  1.00
 muF1, muF1_reference: 0.426172D+04 0.426172D+04  1.00
 muF2, muF2_reference: 0.426172D+04 0.426172D+04  1.00
 QES,  QES_reference:  0.426172D+04 0.426172D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4936539925348600E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4936539925348600E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6977730405489900E-006           OLP:   -3.6977730405489892E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8727265758701955E-006           OLP:   -7.8727265758702785E-006
  FINITE:
           OLP:   -7.3426952649193063E-005
           BORN:    1.0656829981684907E-003
  MOMENTA (Exyzm): 
           1   2130.8606344116429        0.0000000000000000        0.0000000000000000        2130.8606344116429        0.0000000000000000     
           2   2130.8606344116429       -0.0000000000000000       -0.0000000000000000       -2130.8606344116429        0.0000000000000000     
           3   2130.8606344116429       -1529.6854299899239       -1308.3368267542851        699.20260033859938        0.0000000000000000     
           4   2130.8606344116429        1529.6854299899239        1308.3368267542851       -699.20260033859938        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.6977730405489900E-006           OLP:   -3.6977730405489892E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.8727265758701972E-006           OLP:   -7.8727265758702785E-006
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9098E-06  +/-  0.2526E-08  (   0.278 %)
Integral      = 0.5140E-06  +/-  0.2718E-08  (   0.529 %)
Virtual       = 0.6928E-09  +/-  0.1084E-08  ( 156.501 %)
Virtual ratio = -.1941E+00  +/-  0.4295E-03  (   0.221 %)
ABS virtual   = 0.4833E-06  +/-  0.8708E-09  (   0.180 %)
Born          = 0.1779E-05  +/-  0.2693E-08  (   0.151 %)
V  2          = 0.6928E-09  +/-  0.1084E-08  ( 156.501 %)
B  2          = 0.1779E-05  +/-  0.2693E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9098E-06  +/-  0.2526E-08  (   0.278 %)
accumulated results Integral      = 0.5140E-06  +/-  0.2718E-08  (   0.529 %)
accumulated results Virtual       = 0.6928E-09  +/-  0.1084E-08  ( 156.501 %)
accumulated results Virtual ratio = -.1941E+00  +/-  0.4295E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4833E-06  +/-  0.8708E-09  (   0.180 %)
accumulated results Born          = 0.1779E-05  +/-  0.2693E-08  (   0.151 %)
accumulated results V  2          = 0.6928E-09  +/-  0.1084E-08  ( 156.501 %)
accumulated results B  2          = 0.1779E-05  +/-  0.2693E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   209277    23899  0.3347E-06  0.1853E-06  0.8650E+00
channel    2 :     1 T   205415    24412  0.3372E-06  0.1985E-06  0.5645E+00
channel    3 :     2 T    71516     8586  0.1171E-06  0.6104E-07  0.9125E+00
channel    4 :     2 T    73667     8635  0.1208E-06  0.6923E-07  0.9302E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0982389446430050E-007  +/-   2.5261818883796218E-009
 Final result:   5.1404373916149141E-007  +/-   2.7181140238116284E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376688
   Stability unknown:                                          0
   Stable PS point:                                       376688
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376688
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376688
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.98952103    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    9.03896904    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.29382610    
 Time spent in Integrated_CT :    12.8266602    
 Time spent in Virtuals :    750.960510    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    12.2175694    
 Time spent in N1body_prefactor :    1.04935515    
 Time spent in Adding_alphas_pdf :    14.3672943    
 Time spent in Reweight_scale :    61.4300728    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.2065125    
 Time spent in Applying_cuts :    7.43257475    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    63.6111031    
 Time spent in Other_tasks :    33.5264282    
 Time spent in Total :    996.950439    
Time in seconds: 1023



LOG file for integration channel /P0_uxu_emep/all_G1_94, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       10669
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          94
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 296758
  with seed                   49
 Ranmar initialization seeds         124        5374
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.441114D+04 0.441114D+04  1.00
 muF1, muF1_reference: 0.441114D+04 0.441114D+04  1.00
 muF2, muF2_reference: 0.441114D+04 0.441114D+04  1.00
 QES,  QES_reference:  0.441114D+04 0.441114D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4693753498136561E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4693753498136561E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.3590448619882549E-006           OLP:   -3.3590448619882532E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.5583147051839709E-006           OLP:   -7.5583147051838430E-006
  FINITE:
           OLP:   -5.6200278081698507E-005
           BORN:    9.6806292875526259E-004
  MOMENTA (Exyzm): 
           1   2205.5695037586247        0.0000000000000000        0.0000000000000000        2205.5695037586247        0.0000000000000000     
           2   2205.5695037586247       -0.0000000000000000       -0.0000000000000000       -2205.5695037586247        0.0000000000000000     
           3   2205.5695037586247       -1206.5244433347902       -1639.0505970858555        849.91102107117115        0.0000000000000000     
           4   2205.5695037586247        1206.5244433347902        1639.0505970858555       -849.91102107117115        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.3590448619882549E-006           OLP:   -3.3590448619882532E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.5583147051839700E-006           OLP:   -7.5583147051838430E-006
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9079E-06  +/-  0.1792E-08  (   0.197 %)
Integral      = 0.5129E-06  +/-  0.2053E-08  (   0.400 %)
Virtual       = 0.1684E-08  +/-  0.1083E-08  (  64.335 %)
Virtual ratio = -.1938E+00  +/-  0.4299E-03  (   0.222 %)
ABS virtual   = 0.4835E-06  +/-  0.8693E-09  (   0.180 %)
Born          = 0.1775E-05  +/-  0.2676E-08  (   0.151 %)
V  2          = 0.1684E-08  +/-  0.1083E-08  (  64.335 %)
B  2          = 0.1775E-05  +/-  0.2676E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9079E-06  +/-  0.1792E-08  (   0.197 %)
accumulated results Integral      = 0.5129E-06  +/-  0.2053E-08  (   0.400 %)
accumulated results Virtual       = 0.1684E-08  +/-  0.1083E-08  (  64.335 %)
accumulated results Virtual ratio = -.1938E+00  +/-  0.4299E-03  (   0.222 %)
accumulated results ABS virtual   = 0.4835E-06  +/-  0.8693E-09  (   0.180 %)
accumulated results Born          = 0.1775E-05  +/-  0.2676E-08  (   0.151 %)
accumulated results V  2          = 0.1684E-08  +/-  0.1083E-08  (  64.335 %)
accumulated results B  2          = 0.1775E-05  +/-  0.2676E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                            1                          2                      3                    4
channel    1 :     1 T   209540    23899  0.3371E-06  0.1831E-06  0.8610E+00
channel    2 :     1 T   204185    24412  0.3340E-06  0.1990E-06  0.9722E+00
channel    3 :     2 T    72181     8586  0.1175E-06  0.6314E-07  0.1000E+01
channel    4 :     2 T    73965     8635  0.1193E-06  0.6766E-07  0.9445E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0789032964092843E-007  +/-   1.7924969468511728E-009
 Final result:   5.1293087147774412E-007  +/-   2.0531336842650510E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376106
   Stability unknown:                                          0
   Stable PS point:                                       376106
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376106
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376106
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.00537586    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    9.07265759    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.39138126    
 Time spent in Integrated_CT :    12.8005371    
 Time spent in Virtuals :    754.579407    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    12.3306990    
 Time spent in N1body_prefactor :    1.06268573    
 Time spent in Adding_alphas_pdf :    14.6240368    
 Time spent in Reweight_scale :    61.5760765    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.0575333    
 Time spent in Applying_cuts :    7.40268898    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    65.5114822    
 Time spent in Other_tasks :    33.3551636    
 Time spent in Total :    1002.76971    
Time in seconds: 1029



LOG file for integration channel /P0_uxu_emep/all_G1_95, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       10655
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          95
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 299915
  with seed                   49
 Ranmar initialization seeds         124        8531
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.434398D+04 0.434398D+04  1.00
 muF1, muF1_reference: 0.434398D+04 0.434398D+04  1.00
 muF2, muF2_reference: 0.434398D+04 0.434398D+04  1.00
 QES,  QES_reference:  0.434398D+04 0.434398D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4801661498176283E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 REAL 3: keeping split order            1
 alpha_s value used for the virtuals is (for the first PS point):    7.4983562573833054E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9727421190842409E-006           OLP:   -3.9727421190842375E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1186400819528296E-006           OLP:   -8.1186400819528160E-006
  FINITE:
           OLP:   -8.9667923593094251E-005
           BORN:    1.1449279569054845E-003
  MOMENTA (Exyzm): 
           1   2116.7390095796936        0.0000000000000000        0.0000000000000000        2116.7390095796936        0.0000000000000000     
           2   2116.7390095796936       -0.0000000000000000       -0.0000000000000000       -2116.7390095796936        0.0000000000000000     
           3   2116.7390095796936       -2019.1910155585399       -190.78189850036776        605.84977062691860        0.0000000000000000     
           4   2116.7390095796936        2019.1910155585399        190.78189850036776       -605.84977062691860        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9727421190842409E-006           OLP:   -3.9727421190842375E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1186400819528296E-006           OLP:   -8.1186400819528160E-006
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9080E-06  +/-  0.1789E-08  (   0.197 %)
Integral      = 0.5160E-06  +/-  0.2048E-08  (   0.397 %)
Virtual       = 0.3612E-10  +/-  0.1082E-08  ( ******* %)
Virtual ratio = -.1949E+00  +/-  0.4298E-03  (   0.221 %)
ABS virtual   = 0.4833E-06  +/-  0.8679E-09  (   0.180 %)
Born          = 0.1778E-05  +/-  0.2678E-08  (   0.151 %)
V  2          = 0.3612E-10  +/-  0.1082E-08  ( ******* %)
B  2          = 0.1778E-05  +/-  0.2678E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9080E-06  +/-  0.1789E-08  (   0.197 %)
accumulated results Integral      = 0.5160E-06  +/-  0.2048E-08  (   0.397 %)
accumulated results Virtual       = 0.3612E-10  +/-  0.1082E-08  ( ******* %)
accumulated results Virtual ratio = -.1949E+00  +/-  0.4298E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4833E-06  +/-  0.8679E-09  (   0.180 %)
accumulated results Born          = 0.1778E-05  +/-  0.2678E-08  (   0.151 %)
accumulated results V  2          = 0.3612E-10  +/-  0.1082E-08  ( ******* %)
accumulated results B  2          = 0.1778E-05  +/-  0.2678E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   209603    23899  0.3376E-06  0.1853E-06  0.8601E+00
channel    2 :     1 T   205116    24412  0.3342E-06  0.1999E-06  0.9738E+00
channel    3 :     2 T    71806     8586  0.1171E-06  0.6266E-07  0.9962E+00
channel    4 :     2 T    73344     8635  0.1192E-06  0.6808E-07  0.9615E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0802015637651873E-007  +/-   1.7885830097977351E-009
 Final result:   5.1596071858672377E-007  +/-   2.0484615834261740E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376777
   Stability unknown:                                          0
   Stable PS point:                                       376777
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376777
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376777
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.99994516    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.71223354    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.26815891    
 Time spent in Integrated_CT :    12.6275635    
 Time spent in Virtuals :    742.812500    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.8320436    
 Time spent in N1body_prefactor :    1.08267903    
 Time spent in Adding_alphas_pdf :    13.9957218    
 Time spent in Reweight_scale :    58.9303207    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    22.0824242    
 Time spent in Applying_cuts :    7.59498978    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    61.6188583    
 Time spent in Other_tasks :    34.1460571    
 Time spent in Total :    984.703430    
Time in seconds: 1011



LOG file for integration channel /P0_uxu_emep/all_G1_96, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       10665
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          96
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 303072
  with seed                   49
 Ranmar initialization seeds         124       11688
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.429352D+04 0.429352D+04  1.00
 muF1, muF1_reference: 0.429352D+04 0.429352D+04  1.00
 muF2, muF2_reference: 0.429352D+04 0.429352D+04  1.00
 QES,  QES_reference:  0.429352D+04 0.429352D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4884033679214840E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 REAL 1: keeping split order            1
 alpha_s value used for the virtuals is (for the first PS point):    7.4835367952909973E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.4509177323799195E-006           OLP:   -3.4509177323799186E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.6443674467418229E-006           OLP:   -7.6443674467418618E-006
  FINITE:
           OLP:   -5.9899091573472889E-005
           BORN:    9.9454031254699428E-004
  MOMENTA (Exyzm): 
           1   2161.6235735976729        0.0000000000000000        0.0000000000000000        2161.6235735976729        0.0000000000000000     
           2   2161.6235735976729       -0.0000000000000000       -0.0000000000000000       -2161.6235735976729        0.0000000000000000     
           3   2161.6235735976729       -1337.0627801355270       -1499.4327477621539        797.86028278631989        0.0000000000000000     
           4   2161.6235735976729        1337.0627801355270        1499.4327477621539       -797.86028278631989        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.4509177323799195E-006           OLP:   -3.4509177323799186E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.6443674467418212E-006           OLP:   -7.6443674467418618E-006
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9096E-06  +/-  0.1959E-08  (   0.215 %)
Integral      = 0.5119E-06  +/-  0.2201E-08  (   0.430 %)
Virtual       = -.1202E-08  +/-  0.1083E-08  (  90.143 %)
Virtual ratio = -.1945E+00  +/-  0.4294E-03  (   0.221 %)
ABS virtual   = 0.4836E-06  +/-  0.8695E-09  (   0.180 %)
Born          = 0.1779E-05  +/-  0.2680E-08  (   0.151 %)
V  2          = -.1202E-08  +/-  0.1083E-08  (  90.143 %)
B  2          = 0.1779E-05  +/-  0.2680E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9096E-06  +/-  0.1959E-08  (   0.215 %)
accumulated results Integral      = 0.5119E-06  +/-  0.2201E-08  (   0.430 %)
accumulated results Virtual       = -.1202E-08  +/-  0.1083E-08  (  90.143 %)
accumulated results Virtual ratio = -.1945E+00  +/-  0.4294E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4836E-06  +/-  0.8695E-09  (   0.180 %)
accumulated results Born          = 0.1779E-05  +/-  0.2680E-08  (   0.151 %)
accumulated results V  2          = -.1202E-08  +/-  0.1083E-08  (  90.143 %)
accumulated results B  2          = 0.1779E-05  +/-  0.2680E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                          2                      3                   4
channel    1 :     1 T   209060    23899  0.3351E-06  0.1850E-06  0.8405E+00
channel    2 :     1 T   204882    24412  0.3375E-06  0.1986E-06  0.8514E+00
channel    3 :     2 T    72175     8586  0.1186E-06  0.6184E-07  0.9828E+00
channel    4 :     2 T    73756     8635  0.1184E-06  0.6643E-07  0.9136E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0957221548708413E-007  +/-   1.9587781716211839E-009
 Final result:   5.1189723102195196E-007  +/-   2.2014714054514150E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376847
   Stability unknown:                                          0
   Stable PS point:                                       376847
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376847
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376847
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.05050540    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.73576069    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.38140535    
 Time spent in Integrated_CT :    12.7077637    
 Time spent in Virtuals :    744.521118    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.8764267    
 Time spent in N1body_prefactor :    1.05803537    
 Time spent in Adding_alphas_pdf :    14.2931681    
 Time spent in Reweight_scale :    59.5296783    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    22.0827351    
 Time spent in Applying_cuts :    7.67368555    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    62.9622231    
 Time spent in Other_tasks :    33.8216553    
 Time spent in Total :    988.694153    
Time in seconds: 1014



LOG file for integration channel /P0_uxu_emep/all_G1_97, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       10668
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          97
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 306229
  with seed                   49
 Ranmar initialization seeds         124       14845
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.429684D+04 0.429684D+04  1.00
 muF1, muF1_reference: 0.429684D+04 0.429684D+04  1.00
 muF2, muF2_reference: 0.429684D+04 0.429684D+04  1.00
 QES,  QES_reference:  0.429684D+04 0.429684D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4878574158553368E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4878574158553368E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0610858692765938E-006           OLP:   -4.0610858692765904E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1952220363774927E-006           OLP:   -8.1952220363774758E-006
  FINITE:
           OLP:   -9.6859387694810231E-005
           BORN:    1.1703882627549906E-003
  MOMENTA (Exyzm): 
           1   2148.4222530891102        0.0000000000000000        0.0000000000000000        2148.4222530891102        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2148.4222530891102       -0.0000000000000000       -0.0000000000000000       -2148.4222530891102        0.0000000000000000     
           3   2148.4222530891102       -2043.7460274329030       -306.11882446215878        587.46201428741085        0.0000000000000000     
           4   2148.4222530891102        2043.7460274329030        306.11882446215878       -587.46201428741085        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -4.0610858692765938E-006           OLP:   -4.0610858692765904E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1952220363774910E-006           OLP:   -8.1952220363774758E-006
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9102E-06  +/-  0.2018E-08  (   0.222 %)
Integral      = 0.5168E-06  +/-  0.2252E-08  (   0.436 %)
Virtual       = 0.6434E-09  +/-  0.1089E-08  ( 169.212 %)
Virtual ratio = -.1945E+00  +/-  0.4297E-03  (   0.221 %)
ABS virtual   = 0.4842E-06  +/-  0.8754E-09  (   0.181 %)
Born          = 0.1778E-05  +/-  0.2682E-08  (   0.151 %)
V  2          = 0.6434E-09  +/-  0.1089E-08  ( 169.212 %)
B  2          = 0.1778E-05  +/-  0.2682E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9102E-06  +/-  0.2018E-08  (   0.222 %)
accumulated results Integral      = 0.5168E-06  +/-  0.2252E-08  (   0.436 %)
accumulated results Virtual       = 0.6434E-09  +/-  0.1089E-08  ( 169.212 %)
accumulated results Virtual ratio = -.1945E+00  +/-  0.4297E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4842E-06  +/-  0.8754E-09  (   0.181 %)
accumulated results Born          = 0.1778E-05  +/-  0.2682E-08  (   0.151 %)
accumulated results V  2          = 0.6434E-09  +/-  0.1089E-08  ( 169.212 %)
accumulated results B  2          = 0.1778E-05  +/-  0.2682E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                            1                          2                       3                   4
channel    1 :     1 T   209147    23899  0.3362E-06  0.1868E-06  0.8775E+00
channel    2 :     1 T   205443    24412  0.3371E-06  0.1991E-06  0.7740E+00
channel    3 :     2 T    71716     8586  0.1165E-06  0.6206E-07  0.1000E+01
channel    4 :     2 T    73564     8635  0.1203E-06  0.6895E-07  0.9571E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.1020732185901875E-007  +/-   2.0176265067447264E-009
 Final result:   5.1683273475530279E-007  +/-   2.2524379637649561E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376759
   Stability unknown:                                          0
   Stable PS point:                                       376759
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376759
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376759
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.05855179    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.77859306    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.45013332    
 Time spent in Integrated_CT :    12.9365845    
 Time spent in Virtuals :    748.409485    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.9060221    
 Time spent in N1body_prefactor :    1.13488317    
 Time spent in Adding_alphas_pdf :    14.0585117    
 Time spent in Reweight_scale :    60.5912781    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.8166122    
 Time spent in Applying_cuts :    7.85755062    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    62.1310997    
 Time spent in Other_tasks :    34.4934692    
 Time spent in Total :    993.622803    
Time in seconds: 1020



LOG file for integration channel /P0_uxu_emep/all_G1_98, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       10656
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          98
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 309386
  with seed                   49
 Ranmar initialization seeds         124       18002
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.440788D+04 0.440788D+04  1.00
 muF1, muF1_reference: 0.440788D+04 0.440788D+04  1.00
 muF2, muF2_reference: 0.440788D+04 0.440788D+04  1.00
 QES,  QES_reference:  0.440788D+04 0.440788D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4698950922726451E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4698950922726451E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.2898836154201313E-006           OLP:   -3.2898836154201377E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.4934202279242772E-006           OLP:   -7.4934202279242501E-006
  FINITE:
           OLP:   -5.2029308685950173E-005
           BORN:    9.4813094163989176E-004
  MOMENTA (Exyzm): 
           1   2203.9380476515103        0.0000000000000000        0.0000000000000000        2203.9380476515103        0.0000000000000000     
           2   2203.9380476515103       -0.0000000000000000       -0.0000000000000000       -2203.9380476515103        0.0000000000000000     
           3   2203.9380476515103       -1014.3600944011163       -1749.0049280043340        877.15350913569443        0.0000000000000000     
           4   2203.9380476515103        1014.3600944011163        1749.0049280043340       -877.15350913569443        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.2898836154201313E-006           OLP:   -3.2898836154201377E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -7.4934202279242755E-006           OLP:   -7.4934202279242501E-006
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 Error #15 in genps_fks.f  -1.3323733583092690E-006           3
ABS integral  = 0.9090E-06  +/-  0.1896E-08  (   0.209 %)
Integral      = 0.5153E-06  +/-  0.2144E-08  (   0.416 %)
Virtual       = 0.1231E-08  +/-  0.1089E-08  (  88.412 %)
Virtual ratio = -.1942E+00  +/-  0.4298E-03  (   0.221 %)
ABS virtual   = 0.4831E-06  +/-  0.8766E-09  (   0.181 %)
Born          = 0.1775E-05  +/-  0.2684E-08  (   0.151 %)
V  2          = 0.1231E-08  +/-  0.1089E-08  (  88.412 %)
B  2          = 0.1775E-05  +/-  0.2684E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9090E-06  +/-  0.1896E-08  (   0.209 %)
accumulated results Integral      = 0.5153E-06  +/-  0.2144E-08  (   0.416 %)
accumulated results Virtual       = 0.1231E-08  +/-  0.1089E-08  (  88.412 %)
accumulated results Virtual ratio = -.1942E+00  +/-  0.4298E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4831E-06  +/-  0.8766E-09  (   0.181 %)
accumulated results Born          = 0.1775E-05  +/-  0.2684E-08  (   0.151 %)
accumulated results V  2          = 0.1231E-08  +/-  0.1089E-08  (  88.412 %)
accumulated results B  2          = 0.1775E-05  +/-  0.2684E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                            1                           2                      3                   4
channel    1 :     1 T   209455    23899  0.3363E-06  0.1866E-06  0.8373E+00
channel    2 :     1 T   205063    24412  0.3350E-06  0.1972E-06  0.8973E+00
channel    3 :     2 T    71803     8586  0.1181E-06  0.6211E-07  0.1000E+01
channel    4 :     2 T    73549     8635  0.1196E-06  0.6945E-07  0.9681E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0900955974239182E-007  +/-   1.8957590007865770E-009
 Final result:   5.1532081757862248E-007  +/-   2.1437018464571186E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376065
   Stability unknown:                                          0
   Stable PS point:                                       376065
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376065
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376065
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.08411026    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.72716236    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.45048714    
 Time spent in Integrated_CT :    12.8233643    
 Time spent in Virtuals :    747.605835    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    11.9177532    
 Time spent in N1body_prefactor :    1.07549310    
 Time spent in Adding_alphas_pdf :    14.1385851    
 Time spent in Reweight_scale :    60.3909225    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    22.0268135    
 Time spent in Applying_cuts :    7.69778395    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    62.0049820    
 Time spent in Other_tasks :    34.5046387    
 Time spent in Total :    992.447937    
Time in seconds: 1019



LOG file for integration channel /P0_uxu_emep/all_G1_99, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       10671
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          99
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 312543
  with seed                   49
 Ranmar initialization seeds         124       21159
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.426985D+04 0.426985D+04  1.00
 muF1, muF1_reference: 0.426985D+04 0.426985D+04  1.00
 muF2, muF2_reference: 0.426985D+04 0.426985D+04  1.00
 QES,  QES_reference:  0.426985D+04 0.426985D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4923079479863403E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4923079479863389E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9804299075983485E-006           OLP:   -3.9804299075983434E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -8.1253500675695716E-006           OLP:   -8.1253500675696089E-006
  FINITE:
           OLP:   -9.1080956824615174E-005
           BORN:    1.1471435459703516E-003
  MOMENTA (Exyzm): 
           1   2134.9235063743922        0.0000000000000000        0.0000000000000000        2134.9235063743922        0.0000000000000000     
           2   2134.9235063743922       -0.0000000000000000       -0.0000000000000000       -2134.9235063743922        0.0000000000000000     
           3   2134.9235063743922       -1285.1045571128225       -1592.4654562665510        608.65296019616255        0.0000000000000000     
           4   2134.9235063743922        1285.1045571128225        1592.4654562665510       -608.65296019616255        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.9804299075983485E-006           OLP:   -3.9804299075983434E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -8.1253500675695716E-006           OLP:   -8.1253500675696089E-006
 REAL 2: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.9094E-06  +/-  0.2354E-08  (   0.259 %)
Integral      = 0.5090E-06  +/-  0.2561E-08  (   0.503 %)
Virtual       = -.1820E-08  +/-  0.1083E-08  (  59.476 %)
Virtual ratio = -.1952E+00  +/-  0.4294E-03  (   0.220 %)
ABS virtual   = 0.4826E-06  +/-  0.8697E-09  (   0.180 %)
Born          = 0.1777E-05  +/-  0.2691E-08  (   0.151 %)
V  2          = -.1820E-08  +/-  0.1083E-08  (  59.476 %)
B  2          = 0.1777E-05  +/-  0.2691E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9094E-06  +/-  0.2354E-08  (   0.259 %)
accumulated results Integral      = 0.5090E-06  +/-  0.2561E-08  (   0.503 %)
accumulated results Virtual       = -.1820E-08  +/-  0.1083E-08  (  59.476 %)
accumulated results Virtual ratio = -.1952E+00  +/-  0.4294E-03  (   0.220 %)
accumulated results ABS virtual   = 0.4826E-06  +/-  0.8697E-09  (   0.180 %)
accumulated results Born          = 0.1777E-05  +/-  0.2691E-08  (   0.151 %)
accumulated results V  2          = -.1820E-08  +/-  0.1083E-08  (  59.476 %)
accumulated results B  2          = 0.1777E-05  +/-  0.2691E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                            1                           2                      3                   4
channel    1 :     1 T   209122    23899  0.3342E-06  0.1808E-06  0.7611E+00
channel    2 :     1 T   205075    24412  0.3376E-06  0.1980E-06  0.6617E+00
channel    3 :     2 T    72127     8586  0.1183E-06  0.6173E-07  0.8743E+00
channel    4 :     2 T    73546     8635  0.1193E-06  0.6849E-07  0.9778E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0935468799824684E-007  +/-   2.3544687158469008E-009
 Final result:   5.0904925657488705E-007  +/-   2.5607955855311068E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376577
   Stability unknown:                                          0
   Stable PS point:                                       376577
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376577
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376577
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.78968358    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.76080608    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    6.48092794    
 Time spent in Integrated_CT :    11.4345093    
 Time spent in Virtuals :    660.362366    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.8619614    
 Time spent in N1body_prefactor :   0.984870017    
 Time spent in Adding_alphas_pdf :    12.7698383    
 Time spent in Reweight_scale :    54.5179787    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    19.0780869    
 Time spent in Applying_cuts :    6.88580275    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    56.9795380    
 Time spent in Other_tasks :    31.2480469    
 Time spent in Total :    881.154419    
Time in seconds: 908



LOG file for integration channel /P0_uxu_emep/all_G1_100, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       10664
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      675973
 Maximum number of iterations is:           1
 Desired accuracy is:   2.9806973733190910E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:         100
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      675973           1
 imode is           -1
channel    1 :     1 F        0    23899  0.3418E-04  0.0000E+00  0.7853E+00
channel    2 :     1 F        0    24412  0.3345E-04  0.0000E+00  0.9273E+00
channel    3 :     2 F        0     8586  0.1173E-04  0.0000E+00  0.9891E+00
channel    4 :     2 F        0     8635  0.1200E-04  0.0000E+00  0.9602E+00
 ------- iteration           1
 Update # PS points (even_rn):       675973  -->       559872
Using random seed offsets:     0 ,      3 , 315700
  with seed                   49
 Ranmar initialization seeds         124       24316
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.439730D+04 0.439730D+04  1.00
 muF1, muF1_reference: 0.439730D+04 0.439730D+04  1.00
 muF2, muF2_reference: 0.439730D+04 0.439730D+04  1.00
 QES,  QES_reference:  0.439730D+04 0.439730D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4715830802897426E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4715830802897440E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5291738507334397E-006           OLP:   -3.5291738507334363E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7173287174892086E-006           OLP:   -7.7173287174892052E-006
  FINITE:
           OLP:   -6.6173831963930302E-005
           BORN:    1.0170934043450854E-003
  MOMENTA (Exyzm): 
           1   2198.6494605301173        0.0000000000000000        0.0000000000000000        2198.6494605301173        0.0000000000000000     
           2   2198.6494605301173       -0.0000000000000000       -0.0000000000000000       -2198.6494605301173        0.0000000000000000     
           3   2198.6494605301173       -1936.5646261738611       -687.09271958957254        782.10005346405296        0.0000000000000000     
           4   2198.6494605301173        1936.5646261738611        687.09271958957254       -782.10005346405296        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -3.5291738507334397E-006           OLP:   -3.5291738507334363E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -7.7173287174892086E-006           OLP:   -7.7173287174892052E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.9082E-06  +/-  0.1802E-08  (   0.198 %)
Integral      = 0.5171E-06  +/-  0.2060E-08  (   0.398 %)
Virtual       = 0.1936E-08  +/-  0.1087E-08  (  56.115 %)
Virtual ratio = -.1940E+00  +/-  0.4295E-03  (   0.221 %)
ABS virtual   = 0.4835E-06  +/-  0.8735E-09  (   0.181 %)
Born          = 0.1777E-05  +/-  0.2687E-08  (   0.151 %)
V  2          = 0.1936E-08  +/-  0.1087E-08  (  56.115 %)
B  2          = 0.1777E-05  +/-  0.2687E-08  (   0.151 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.9082E-06  +/-  0.1802E-08  (   0.198 %)
accumulated results Integral      = 0.5171E-06  +/-  0.2060E-08  (   0.398 %)
accumulated results Virtual       = 0.1936E-08  +/-  0.1087E-08  (  56.115 %)
accumulated results Virtual ratio = -.1940E+00  +/-  0.4295E-03  (   0.221 %)
accumulated results ABS virtual   = 0.4835E-06  +/-  0.8735E-09  (   0.181 %)
accumulated results Born          = 0.1777E-05  +/-  0.2687E-08  (   0.151 %)
accumulated results V  2          = 0.1936E-08  +/-  0.1087E-08  (  56.115 %)
accumulated results B  2          = 0.1777E-05  +/-  0.2687E-08  (   0.151 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                          1                                                        2
  2:  0                             1                         2                       3                   4
channel    1 :     1 T   209728    23899  0.3360E-06  0.1867E-06  0.8886E+00
channel    2 :     1 T   204883    24412  0.3365E-06  0.1992E-06  0.9352E+00
channel    3 :     2 T    71415     8586  0.1163E-06  0.6302E-07  0.1000E+01
channel    4 :     2 T    73843     8635  0.1194E-06  0.6812E-07  0.9588E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   9.0824187459209340E-007  +/-   1.8024264003935149E-009
 Final result:   5.1712966227845755E-007  +/-   2.0602108892068185E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    376680
   Stability unknown:                                          0
   Stable PS point:                                       376680
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 376680
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       376680
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.03511047    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    9.04103279    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.34572124    
 Time spent in Integrated_CT :    12.8583984    
 Time spent in Virtuals :    755.113098    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    12.2959948    
 Time spent in N1body_prefactor :    1.07261586    
 Time spent in Adding_alphas_pdf :    14.6652489    
 Time spent in Reweight_scale :    61.6400223    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    21.2205887    
 Time spent in Applying_cuts :    7.51944733    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    63.9945869    
 Time spent in Other_tasks :    33.7670288    
 Time spent in Total :    1002.56891    
Time in seconds: 1028



LOG file for integration channel /P0_dxd_emep/all_G1_1, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       10691
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      862003
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6471856703035443E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           1
 Weight multiplier:   4.3478260869565216E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      862003           1
 imode is           -1
channel    1 :     1 F        0    11174  0.4567E-05  0.0000E+00  0.7609E+00
channel    2 :     1 F        0    11222  0.4528E-05  0.0000E+00  0.8606E+00
channel    3 :     2 F        0    20584  0.8729E-05  0.0000E+00  0.7393E+00
channel    4 :     2 F        0    22555  0.8818E-05  0.0000E+00  0.7654E+00
 ------- iteration           1
 Update # PS points (even_rn):       862003  -->       839808
Using random seed offsets:     0 ,      4 ,   3157
  with seed                   49
 Ranmar initialization seeds         124       12584
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.440853D+04 0.440853D+04  1.00
 muF1, muF1_reference: 0.440853D+04 0.440853D+04  1.00
 muF2, muF2_reference: 0.440853D+04 0.440853D+04  1.00
 QES,  QES_reference:  0.440853D+04 0.440853D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4697905875764498E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4697905875764498E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8698629613920815E-006           OLP:   -1.8698629613920800E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.3785662594300777E-006           OLP:   -2.3785662594301293E-006
  FINITE:
           OLP:   -2.0604937751190935E-004
           BORN:    7.0055287020376149E-004
  MOMENTA (Exyzm): 
           1   2204.2659684548448        0.0000000000000000        0.0000000000000000        2204.2659684548448        0.0000000000000000     
           2   2204.2659684548448       -0.0000000000000000       -0.0000000000000000       -2204.2659684548448        0.0000000000000000     
           3   2204.2659684548448       -2100.1283000251901       -526.36754463682053        413.74725506580006        0.0000000000000000     
           4   2204.2659684548448        2100.1283000251901        526.36754463682053       -413.74725506580006        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8698629613920815E-006           OLP:   -1.8698629613920800E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -2.3785662594300777E-006           OLP:   -2.3785662594301293E-006
 REAL 1: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 Error #15 in genps_fks.f  -1.1622905731201172E-006           4
ABS integral  = 0.1158E-05  +/-  0.2048E-08  (   0.177 %)
Integral      = 0.8080E-06  +/-  0.2239E-08  (   0.277 %)
Virtual       = -.1274E-08  +/-  0.1139E-08  (  89.383 %)
Virtual ratio = -.2851E+00  +/-  0.3294E-03  (   0.116 %)
ABS virtual   = 0.5051E-06  +/-  0.9963E-09  (   0.197 %)
Born          = 0.2394E-05  +/-  0.3541E-08  (   0.148 %)
V  2          = -.1274E-08  +/-  0.1139E-08  (  89.383 %)
B  2          = 0.2394E-05  +/-  0.3541E-08  (   0.148 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1158E-05  +/-  0.2048E-08  (   0.177 %)
accumulated results Integral      = 0.8080E-06  +/-  0.2239E-08  (   0.277 %)
accumulated results Virtual       = -.1274E-08  +/-  0.1139E-08  (  89.383 %)
accumulated results Virtual ratio = -.2851E+00  +/-  0.3294E-03  (   0.116 %)
accumulated results ABS virtual   = 0.5051E-06  +/-  0.9963E-09  (   0.197 %)
accumulated results Born          = 0.2394E-05  +/-  0.3541E-08  (   0.148 %)
accumulated results V  2          = -.1274E-08  +/-  0.1139E-08  (  89.383 %)
accumulated results B  2          = 0.2394E-05  +/-  0.3541E-08  (   0.148 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                  1                                                2
  2:  0                            1                                 2                 3                  4
channel    1 :     1 T   143705    11174  0.1976E-06  0.1316E-06  0.7443E+00
channel    2 :     1 T   142640    11222  0.1972E-06  0.1354E-06  0.8072E+00
channel    3 :     2 T   275877    20584  0.3842E-06  0.2699E-06  0.7097E+00
channel    4 :     2 T   277588    22555  0.3792E-06  0.2710E-06  0.7904E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1581936126340888E-006  +/-   2.0478927204870226E-009
 Final result:   8.0795695353956947E-007  +/-   2.2391595201058290E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    474204
   Stability unknown:                                          0
   Stable PS point:                                       474204
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 474204
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       474204
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.78523111    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.5227108    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    10.2021294    
 Time spent in Integrated_CT :    17.7543945    
 Time spent in Virtuals :    951.995361    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    17.0928345    
 Time spent in N1body_prefactor :    1.62277138    
 Time spent in Adding_alphas_pdf :    20.4495678    
 Time spent in Reweight_scale :    85.0337982    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    30.4110413    
 Time spent in Applying_cuts :    10.5767698    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    90.1691208    
 Time spent in Other_tasks :    48.0944824    
 Time spent in Total :    1298.71008    
Time in seconds: 1322



LOG file for integration channel /P0_dxd_emep/all_G1_2, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       10695
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      862003
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6471856703035443E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           2
 Weight multiplier:   4.3478260869565216E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      862003           1
 imode is           -1
channel    1 :     1 F        0    11174  0.4567E-05  0.0000E+00  0.7609E+00
channel    2 :     1 F        0    11222  0.4528E-05  0.0000E+00  0.8606E+00
channel    3 :     2 F        0    20584  0.8729E-05  0.0000E+00  0.7393E+00
channel    4 :     2 F        0    22555  0.8818E-05  0.0000E+00  0.7654E+00
 ------- iteration           1
 Update # PS points (even_rn):       862003  -->       839808
Using random seed offsets:     0 ,      4 ,   6314
  with seed                   49
 Ranmar initialization seeds         124       15741
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.423929D+04 0.423929D+04  1.00
 muF1, muF1_reference: 0.423929D+04 0.423929D+04  1.00
 muF2, muF2_reference: 0.423929D+04 0.423929D+04  1.00
 QES,  QES_reference:  0.423929D+04 0.423929D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4973860113333929E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4973860113333929E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5614447888947377E-006           OLP:   -1.5614447888947389E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7996552970578520E-006           OLP:   -1.7996552970578149E-006
  FINITE:
           OLP:   -1.6389791208612785E-004
           BORN:    5.8500256495296521E-004
  MOMENTA (Exyzm): 
           1   2119.6437213836680        0.0000000000000000        0.0000000000000000        2119.6437213836680        0.0000000000000000     
           2   2119.6437213836680       -0.0000000000000000       -0.0000000000000000       -2119.6437213836680        0.0000000000000000     
           3   2119.6437213836680       -1146.3038927121274       -1679.9781308492973        597.11838945248542        0.0000000000000000     
           4   2119.6437213836680        1146.3038927121274        1679.9781308492973       -597.11838945248542        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5614447888947377E-006           OLP:   -1.5614447888947389E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7996552970578518E-006           OLP:   -1.7996552970578149E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.1156E-05  +/-  0.2019E-08  (   0.175 %)
Integral      = 0.8046E-06  +/-  0.2213E-08  (   0.275 %)
Virtual       = -.1395E-08  +/-  0.1132E-08  (  81.141 %)
Virtual ratio = -.2850E+00  +/-  0.3295E-03  (   0.116 %)
ABS virtual   = 0.5044E-06  +/-  0.9895E-09  (   0.196 %)
Born          = 0.2392E-05  +/-  0.3523E-08  (   0.147 %)
V  2          = -.1395E-08  +/-  0.1132E-08  (  81.141 %)
B  2          = 0.2392E-05  +/-  0.3523E-08  (   0.147 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1156E-05  +/-  0.2019E-08  (   0.175 %)
accumulated results Integral      = 0.8046E-06  +/-  0.2213E-08  (   0.275 %)
accumulated results Virtual       = -.1395E-08  +/-  0.1132E-08  (  81.141 %)
accumulated results Virtual ratio = -.2850E+00  +/-  0.3295E-03  (   0.116 %)
accumulated results ABS virtual   = 0.5044E-06  +/-  0.9895E-09  (   0.196 %)
accumulated results Born          = 0.2392E-05  +/-  0.3523E-08  (   0.147 %)
accumulated results V  2          = -.1395E-08  +/-  0.1132E-08  (  81.141 %)
accumulated results B  2          = 0.2392E-05  +/-  0.3523E-08  (   0.147 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                  1                                                2
  2:  0                            1                                  2                3                  4
channel    1 :     1 T   144329    11174  0.1998E-06  0.1341E-06  0.7556E+00
channel    2 :     1 T   142587    11222  0.1956E-06  0.1342E-06  0.8429E+00
channel    3 :     2 T   275580    20584  0.3814E-06  0.2665E-06  0.7095E+00
channel    4 :     2 T   277316    22555  0.3788E-06  0.2698E-06  0.7810E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1556773640619870E-006  +/-   2.0194262335113535E-009
 Final result:   8.0456158767493384E-007  +/-   2.2130611526834241E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    474136
   Stability unknown:                                          0
   Stable PS point:                                       474136
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 474136
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       474136
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.83849669    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.6611919    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    10.2728710    
 Time spent in Integrated_CT :    17.6438599    
 Time spent in Virtuals :    955.832397    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    17.2996006    
 Time spent in N1body_prefactor :    1.71296501    
 Time spent in Adding_alphas_pdf :    20.1242409    
 Time spent in Reweight_scale :    85.8340759    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    30.4181652    
 Time spent in Applying_cuts :    11.0776329    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    92.2974319    
 Time spent in Other_tasks :    49.0108643    
 Time spent in Total :    1307.02393    
Time in seconds: 1330



LOG file for integration channel /P0_dxd_emep/all_G1_3, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23024
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      862003
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6471856703035443E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           3
 Weight multiplier:   4.3478260869565216E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      862003           1
 imode is           -1
channel    1 :     1 F        0    11174  0.4567E-05  0.0000E+00  0.7609E+00
channel    2 :     1 F        0    11222  0.4528E-05  0.0000E+00  0.8606E+00
channel    3 :     2 F        0    20584  0.8729E-05  0.0000E+00  0.7393E+00
channel    4 :     2 F        0    22555  0.8818E-05  0.0000E+00  0.7654E+00
 ------- iteration           1
 Update # PS points (even_rn):       862003  -->       839808
Using random seed offsets:     0 ,      4 ,   9471
  with seed                   49
 Ranmar initialization seeds         124       18898
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.426197D+04 0.426197D+04  1.00
 muF1, muF1_reference: 0.426197D+04 0.426197D+04  1.00
 muF2, muF2_reference: 0.426197D+04 0.426197D+04  1.00
 QES,  QES_reference:  0.426197D+04 0.426197D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4936126682355497E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4936126682355497E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5561129993190608E-006           OLP:   -1.5561129993190628E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7899465919960211E-006           OLP:   -1.7899465919960783E-006
  FINITE:
           OLP:   -1.6368136508357914E-004
           BORN:    5.8300498514755417E-004
  MOMENTA (Exyzm): 
           1   2130.9852306776270        0.0000000000000000        0.0000000000000000        2130.9852306776270        0.0000000000000000     
           2   2130.9852306776270       -0.0000000000000000       -0.0000000000000000       -2130.9852306776270        0.0000000000000000     
           3   2130.9852306776270       -1985.8417299931273       -482.33588160407106        604.05527404477368        0.0000000000000000     
           4   2130.9852306776270        1985.8417299931273        482.33588160407106       -604.05527404477368        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5561129993190608E-006           OLP:   -1.5561129993190628E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7899465919960211E-006           OLP:   -1.7899465919960783E-006
 REAL 1: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.1158E-05  +/-  0.2054E-08  (   0.177 %)
Integral      = 0.8068E-06  +/-  0.2245E-08  (   0.278 %)
Virtual       = -.5675E-09  +/-  0.1133E-08  ( 199.731 %)
Virtual ratio = -.2854E+00  +/-  0.3295E-03  (   0.115 %)
ABS virtual   = 0.5052E-06  +/-  0.9904E-09  (   0.196 %)
Born          = 0.2394E-05  +/-  0.3517E-08  (   0.147 %)
V  2          = -.5675E-09  +/-  0.1133E-08  ( 199.731 %)
B  2          = 0.2394E-05  +/-  0.3517E-08  (   0.147 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1158E-05  +/-  0.2054E-08  (   0.177 %)
accumulated results Integral      = 0.8068E-06  +/-  0.2245E-08  (   0.278 %)
accumulated results Virtual       = -.5675E-09  +/-  0.1133E-08  ( 199.731 %)
accumulated results Virtual ratio = -.2854E+00  +/-  0.3295E-03  (   0.115 %)
accumulated results ABS virtual   = 0.5052E-06  +/-  0.9904E-09  (   0.196 %)
accumulated results Born          = 0.2394E-05  +/-  0.3517E-08  (   0.147 %)
accumulated results V  2          = -.5675E-09  +/-  0.1133E-08  ( 199.731 %)
accumulated results B  2          = 0.2394E-05  +/-  0.3517E-08  (   0.147 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                  1                                                2
  2:  0                            1                                  2                3                  4
channel    1 :     1 T   144437    11174  0.2002E-06  0.1334E-06  0.7256E+00
channel    2 :     1 T   143003    11222  0.1965E-06  0.1343E-06  0.8417E+00
channel    3 :     2 T   274382    20584  0.3803E-06  0.2665E-06  0.6930E+00
channel    4 :     2 T   277987    22555  0.3810E-06  0.2725E-06  0.7868E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1579274560484757E-006  +/-   2.0543195783084725E-009
 Final result:   8.0677703344131662E-007  +/-   2.2453806660698100E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    474307
   Stability unknown:                                          0
   Stable PS point:                                       474307
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 474307
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       474307
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.75440168    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.18742657    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.12312698    
 Time spent in Integrated_CT :    12.6199951    
 Time spent in Virtuals :    660.223511    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.4206257    
 Time spent in N1body_prefactor :   0.874845803    
 Time spent in Adding_alphas_pdf :    14.0179615    
 Time spent in Reweight_scale :    54.4335098    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    19.7965698    
 Time spent in Applying_cuts :    7.01561928    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    50.0003700    
 Time spent in Other_tasks :    29.0924683    
 Time spent in Total :    875.560425    
Time in seconds: 881



LOG file for integration channel /P0_dxd_emep/all_G1_4, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23021
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      862003
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6471856703035443E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           4
 Weight multiplier:   4.3478260869565216E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      862003           1
 imode is           -1
channel    1 :     1 F        0    11174  0.4567E-05  0.0000E+00  0.7609E+00
channel    2 :     1 F        0    11222  0.4528E-05  0.0000E+00  0.8606E+00
channel    3 :     2 F        0    20584  0.8729E-05  0.0000E+00  0.7393E+00
channel    4 :     2 F        0    22555  0.8818E-05  0.0000E+00  0.7654E+00
 ------- iteration           1
 Update # PS points (even_rn):       862003  -->       839808
Using random seed offsets:     0 ,      4 ,  12628
  with seed                   49
 Ranmar initialization seeds         124       22055
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.423320D+04 0.423320D+04  1.00
 muF1, muF1_reference: 0.423320D+04 0.423320D+04  1.00
 muF2, muF2_reference: 0.423320D+04 0.423320D+04  1.00
 QES,  QES_reference:  0.423320D+04 0.423320D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4984021630669584E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4984021630669584E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5939166698782071E-006           OLP:   -1.5939166698782060E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.8590345331803940E-006           OLP:   -1.8590345331804450E-006
  FINITE:
           OLP:   -1.6797208910719285E-004
           BORN:    5.9716830645037888E-004
  MOMENTA (Exyzm): 
           1   2116.6016943712002        0.0000000000000000        0.0000000000000000        2116.6016943712002        0.0000000000000000     
           2   2116.6016943712002       -0.0000000000000000       -0.0000000000000000       -2116.6016943712002        0.0000000000000000     
           3   2116.6016943712002       -2004.0461850674496       -366.78018216931383        573.82394399282532        0.0000000000000000     
           4   2116.6016943712002        2004.0461850674496        366.78018216931383       -573.82394399282532        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5939166698782071E-006           OLP:   -1.5939166698782060E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -1.8590345331803942E-006           OLP:   -1.8590345331804450E-006
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
ABS integral  = 0.1159E-05  +/-  0.2612E-08  (   0.225 %)
Integral      = 0.8037E-06  +/-  0.2766E-08  (   0.344 %)
Virtual       = -.1664E-08  +/-  0.1130E-08  (  67.891 %)
Virtual ratio = -.2853E+00  +/-  0.3295E-03  (   0.115 %)
ABS virtual   = 0.5046E-06  +/-  0.9868E-09  (   0.196 %)
Born          = 0.2393E-05  +/-  0.3512E-08  (   0.147 %)
V  2          = -.1664E-08  +/-  0.1130E-08  (  67.891 %)
B  2          = 0.2393E-05  +/-  0.3512E-08  (   0.147 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1159E-05  +/-  0.2612E-08  (   0.225 %)
accumulated results Integral      = 0.8037E-06  +/-  0.2766E-08  (   0.344 %)
accumulated results Virtual       = -.1664E-08  +/-  0.1130E-08  (  67.891 %)
accumulated results Virtual ratio = -.2853E+00  +/-  0.3295E-03  (   0.115 %)
accumulated results ABS virtual   = 0.5046E-06  +/-  0.9868E-09  (   0.196 %)
accumulated results Born          = 0.2393E-05  +/-  0.3512E-08  (   0.147 %)
accumulated results V  2          = -.1664E-08  +/-  0.1130E-08  (  67.891 %)
accumulated results B  2          = 0.2393E-05  +/-  0.3512E-08  (   0.147 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                  1                                                2
  2:  0                            1                                  2                3                  4
channel    1 :     1 T   143750    11174  0.1996E-06  0.1332E-06  0.7302E+00
channel    2 :     1 T   142576    11222  0.1959E-06  0.1355E-06  0.8462E+00
channel    3 :     2 T   275621    20584  0.3826E-06  0.2635E-06  0.4438E+00
channel    4 :     2 T   277860    22555  0.3809E-06  0.2714E-06  0.7600E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1590009342109843E-006  +/-   2.6119279315909762E-009
 Final result:   8.0366386796338895E-007  +/-   2.7663341122645895E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    474561
   Stability unknown:                                          0
   Stable PS point:                                       474561
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 474561
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       474561
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.72280598    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.07453918    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.16536665    
 Time spent in Integrated_CT :    12.5457153    
 Time spent in Virtuals :    656.659302    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.3410578    
 Time spent in N1body_prefactor :   0.887839735    
 Time spent in Adding_alphas_pdf :    14.0010405    
 Time spent in Reweight_scale :    54.3632431    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.2466125    
 Time spent in Applying_cuts :    6.88394260    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    49.8932419    
 Time spent in Other_tasks :    29.1847534    
 Time spent in Total :    871.969421    
Time in seconds: 876



LOG file for integration channel /P0_dxd_emep/all_G1_5, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23022
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      862003
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6471856703035443E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           5
 Weight multiplier:   4.3478260869565216E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      862003           1
 imode is           -1
channel    1 :     1 F        0    11174  0.4567E-05  0.0000E+00  0.7609E+00
channel    2 :     1 F        0    11222  0.4528E-05  0.0000E+00  0.8606E+00
channel    3 :     2 F        0    20584  0.8729E-05  0.0000E+00  0.7393E+00
channel    4 :     2 F        0    22555  0.8818E-05  0.0000E+00  0.7654E+00
 ------- iteration           1
 Update # PS points (even_rn):       862003  -->       839808
Using random seed offsets:     0 ,      4 ,  15785
  with seed                   49
 Ranmar initialization seeds         124       25212
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.442130D+04 0.442130D+04  1.00
 muF1, muF1_reference: 0.442130D+04 0.442130D+04  1.00
 muF2, muF2_reference: 0.442130D+04 0.442130D+04  1.00
 QES,  QES_reference:  0.442130D+04 0.442130D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4677593663184577E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4677593663184577E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6882232299211990E-006           OLP:   -1.6882232299211988E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0336189512358048E-006           OLP:   -2.0336189512358687E-006
  FINITE:
           OLP:   -1.8416398954101970E-004
           BORN:    6.3250069854609470E-004
  MOMENTA (Exyzm): 
           1   2210.6512917987084        0.0000000000000000        0.0000000000000000        2210.6512917987084        0.0000000000000000     
           2   2210.6512917987084       -0.0000000000000000       -0.0000000000000000       -2210.6512917987084        0.0000000000000000     
           3   2210.6512917987084       -2145.1762604933392       -24.616339963204911        533.47163106760036        0.0000000000000000     
           4   2210.6512917987084        2145.1762604933392        24.616339963204911       -533.47163106760036        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6882232299211990E-006           OLP:   -1.6882232299211988E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0336189512358052E-006           OLP:   -2.0336189512358687E-006
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.1158E-05  +/-  0.2123E-08  (   0.183 %)
Integral      = 0.8067E-06  +/-  0.2308E-08  (   0.286 %)
Virtual       = 0.3106E-09  +/-  0.1139E-08  ( 366.868 %)
Virtual ratio = -.2850E+00  +/-  0.3301E-03  (   0.116 %)
ABS virtual   = 0.5053E-06  +/-  0.9971E-09  (   0.197 %)
Born          = 0.2389E-05  +/-  0.3520E-08  (   0.147 %)
V  2          = 0.3106E-09  +/-  0.1139E-08  ( 366.868 %)
B  2          = 0.2389E-05  +/-  0.3520E-08  (   0.147 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1158E-05  +/-  0.2123E-08  (   0.183 %)
accumulated results Integral      = 0.8067E-06  +/-  0.2308E-08  (   0.286 %)
accumulated results Virtual       = 0.3106E-09  +/-  0.1139E-08  ( 366.868 %)
accumulated results Virtual ratio = -.2850E+00  +/-  0.3301E-03  (   0.116 %)
accumulated results ABS virtual   = 0.5053E-06  +/-  0.9971E-09  (   0.197 %)
accumulated results Born          = 0.2389E-05  +/-  0.3520E-08  (   0.147 %)
accumulated results V  2          = 0.3106E-09  +/-  0.1139E-08  ( 366.868 %)
accumulated results B  2          = 0.2389E-05  +/-  0.3520E-08  (   0.147 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                  1                                                2
  2:  0                            1                                  2                3                  4
channel    1 :     1 T   144382    11174  0.1999E-06  0.1341E-06  0.7428E+00
channel    2 :     1 T   142847    11222  0.1971E-06  0.1364E-06  0.8567E+00
channel    3 :     2 T   274997    20584  0.3798E-06  0.2639E-06  0.6963E+00
channel    4 :     2 T   277583    22555  0.3814E-06  0.2724E-06  0.7244E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1582435828497616E-006  +/-   2.1226383216151810E-009
 Final result:   8.0668455958172491E-007  +/-   2.3082782292839577E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    473930
   Stability unknown:                                          0
   Stable PS point:                                       473930
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 473930
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       473930
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.73989379    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.19039822    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.07567549    
 Time spent in Integrated_CT :    12.4947510    
 Time spent in Virtuals :    655.425903    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.3535700    
 Time spent in N1body_prefactor :   0.861196160    
 Time spent in Adding_alphas_pdf :    14.0788088    
 Time spent in Reweight_scale :    54.1413803    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.5410728    
 Time spent in Applying_cuts :    6.86654758    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    49.7525330    
 Time spent in Other_tasks :    28.9144897    
 Time spent in Total :    870.436218    
Time in seconds: 874



LOG file for integration channel /P0_dxd_emep/all_G1_6, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23017
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      862003
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6471856703035443E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           6
 Weight multiplier:   4.3478260869565216E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      862003           1
 imode is           -1
channel    1 :     1 F        0    11174  0.4567E-05  0.0000E+00  0.7609E+00
channel    2 :     1 F        0    11222  0.4528E-05  0.0000E+00  0.8606E+00
channel    3 :     2 F        0    20584  0.8729E-05  0.0000E+00  0.7393E+00
channel    4 :     2 F        0    22555  0.8818E-05  0.0000E+00  0.7654E+00
 ------- iteration           1
 Update # PS points (even_rn):       862003  -->       839808
Using random seed offsets:     0 ,      4 ,  18942
  with seed                   49
 Ranmar initialization seeds         124       28369
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.447671D+04 0.447671D+04  1.00
 muF1, muF1_reference: 0.447671D+04 0.447671D+04  1.00
 muF2, muF2_reference: 0.447671D+04 0.447671D+04  1.00
 QES,  QES_reference:  0.447671D+04 0.447671D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4590275088402283E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4590275088402283E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6915956252638740E-006           OLP:   -1.6915956252638767E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0399332797937485E-006           OLP:   -2.0399332797937544E-006
  FINITE:
           OLP:   -1.8583290446174010E-004
           BORN:    6.3376418217326593E-004
  MOMENTA (Exyzm): 
           1   2238.3546202968323        0.0000000000000000        0.0000000000000000        2238.3546202968323        0.0000000000000000     
           2   2238.3546202968323       -0.0000000000000000       -0.0000000000000000       -2238.3546202968323        0.0000000000000000     
           3   2238.3546202968323       -2172.5507032913365       -31.732173556805723        537.81773584910422        0.0000000000000000     
           4   2238.3546202968323        2172.5507032913365        31.732173556805723       -537.81773584910422        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6915956252638740E-006           OLP:   -1.6915956252638767E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -2.0399332797937481E-006           OLP:   -2.0399332797937544E-006
 REAL 1: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.1158E-05  +/-  0.2150E-08  (   0.186 %)
Integral      = 0.8049E-06  +/-  0.2334E-08  (   0.290 %)
Virtual       = 0.3350E-11  +/-  0.1137E-08  ( ******* %)
Virtual ratio = -.2852E+00  +/-  0.3302E-03  (   0.116 %)
ABS virtual   = 0.5049E-06  +/-  0.9943E-09  (   0.197 %)
Born          = 0.2386E-05  +/-  0.3506E-08  (   0.147 %)
V  2          = 0.3350E-11  +/-  0.1137E-08  ( ******* %)
B  2          = 0.2386E-05  +/-  0.3506E-08  (   0.147 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1158E-05  +/-  0.2150E-08  (   0.186 %)
accumulated results Integral      = 0.8049E-06  +/-  0.2334E-08  (   0.290 %)
accumulated results Virtual       = 0.3350E-11  +/-  0.1137E-08  ( ******* %)
accumulated results Virtual ratio = -.2852E+00  +/-  0.3302E-03  (   0.116 %)
accumulated results ABS virtual   = 0.5049E-06  +/-  0.9943E-09  (   0.197 %)
accumulated results Born          = 0.2386E-05  +/-  0.3506E-08  (   0.147 %)
accumulated results V  2          = 0.3350E-11  +/-  0.1137E-08  ( ******* %)
accumulated results B  2          = 0.2386E-05  +/-  0.3506E-08  (   0.147 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                  1                                                2
  2:  0                            1                                 2                 3                  4
channel    1 :     1 T   144150    11174  0.1981E-06  0.1314E-06  0.7366E+00
channel    2 :     1 T   142661    11222  0.1966E-06  0.1355E-06  0.8550E+00
channel    3 :     2 T   274794    20584  0.3839E-06  0.2662E-06  0.6275E+00
channel    4 :     2 T   278199    22555  0.3799E-06  0.2717E-06  0.7797E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1584124218423680E-006  +/-   2.1497627937640825E-009
 Final result:   8.0485599677510921E-007  +/-   2.3340971833613873E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    473990
   Stability unknown:                                          0
   Stable PS point:                                       473990
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 473990
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       473990
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.81772113    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.08592319    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.33918142    
 Time spent in Integrated_CT :    12.8144531    
 Time spent in Virtuals :    660.967285    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.5227070    
 Time spent in N1body_prefactor :   0.883886158    
 Time spent in Adding_alphas_pdf :    14.1424122    
 Time spent in Reweight_scale :    54.3344078    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    19.7082939    
 Time spent in Applying_cuts :    6.87628317    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    49.9737282    
 Time spent in Other_tasks :    29.0551147    
 Time spent in Total :    876.521423    
Time in seconds: 882



LOG file for integration channel /P0_dxd_emep/all_G1_7, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23026
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      862003
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6471856703035443E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           7
 Weight multiplier:   4.3478260869565216E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      862003           1
 imode is           -1
channel    1 :     1 F        0    11174  0.4567E-05  0.0000E+00  0.7609E+00
channel    2 :     1 F        0    11222  0.4528E-05  0.0000E+00  0.8606E+00
channel    3 :     2 F        0    20584  0.8729E-05  0.0000E+00  0.7393E+00
channel    4 :     2 F        0    22555  0.8818E-05  0.0000E+00  0.7654E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       862003  -->       839808
Using random seed offsets:     0 ,      4 ,  22099
  with seed                   49
 Ranmar initialization seeds         124        1445
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.422201D+04 0.422201D+04  1.00
 muF1, muF1_reference: 0.422201D+04 0.422201D+04  1.00
 muF2, muF2_reference: 0.422201D+04 0.422201D+04  1.00
 QES,  QES_reference:  0.422201D+04 0.422201D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5002760098418428E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 alpha_s value used for the virtuals is (for the first PS point):    7.4619514214660468E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6223498081905347E-006           OLP:   -1.6223498081905371E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.9113949840186119E-006           OLP:   -1.9113949840187085E-006
  FINITE:
           OLP:   -1.7650816452128762E-004
           BORN:    6.0782091418948954E-004
  MOMENTA (Exyzm): 
           1   2229.0318808532729        0.0000000000000000        0.0000000000000000        2229.0318808532729        0.0000000000000000     
           2   2229.0318808532729       -0.0000000000000000       -0.0000000000000000       -2229.0318808532729        0.0000000000000000     
           3   2229.0318808532729       -2030.2764923207162       -711.08270285966171        583.88516018474593        0.0000000000000000     
           4   2229.0318808532729        2030.2764923207162        711.08270285966171       -583.88516018474593        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6223498081905347E-006           OLP:   -1.6223498081905371E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.9113949840186115E-006           OLP:   -1.9113949840187085E-006
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 Error #15 in genps_fks.f  -1.0728836059570312E-006           4
ABS integral  = 0.1156E-05  +/-  0.2026E-08  (   0.175 %)
Integral      = 0.8037E-06  +/-  0.2219E-08  (   0.276 %)
Virtual       = -.2019E-08  +/-  0.1132E-08  (  56.072 %)
Virtual ratio = -.2858E+00  +/-  0.3299E-03  (   0.115 %)
ABS virtual   = 0.5041E-06  +/-  0.9897E-09  (   0.196 %)
Born          = 0.2390E-05  +/-  0.3523E-08  (   0.147 %)
V  2          = -.2019E-08  +/-  0.1132E-08  (  56.072 %)
B  2          = 0.2390E-05  +/-  0.3523E-08  (   0.147 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1156E-05  +/-  0.2026E-08  (   0.175 %)
accumulated results Integral      = 0.8037E-06  +/-  0.2219E-08  (   0.276 %)
accumulated results Virtual       = -.2019E-08  +/-  0.1132E-08  (  56.072 %)
accumulated results Virtual ratio = -.2858E+00  +/-  0.3299E-03  (   0.115 %)
accumulated results ABS virtual   = 0.5041E-06  +/-  0.9897E-09  (   0.196 %)
accumulated results Born          = 0.2390E-05  +/-  0.3523E-08  (   0.147 %)
accumulated results V  2          = -.2019E-08  +/-  0.1132E-08  (  56.072 %)
accumulated results B  2          = 0.2390E-05  +/-  0.3523E-08  (   0.147 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                  1                                                2
  2:  0                            1                                 2                 3                  4
channel    1 :     1 T   143166    11174  0.1978E-06  0.1311E-06  0.7215E+00
channel    2 :     1 T   143211    11222  0.1962E-06  0.1346E-06  0.8391E+00
channel    3 :     2 T   275181    20584  0.3816E-06  0.2679E-06  0.7116E+00
channel    4 :     2 T   278259    22555  0.3801E-06  0.2701E-06  0.7937E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1556991995494378E-006  +/-   2.0258607476941341E-009
 Final result:   8.0367895466255703E-007  +/-   2.2193286079220063E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    474095
   Stability unknown:                                          0
   Stable PS point:                                       474095
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 474095
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       474095
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.72496891    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.39481163    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.00902462    
 Time spent in Integrated_CT :    12.4307251    
 Time spent in Virtuals :    654.856384    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.4567423    
 Time spent in N1body_prefactor :   0.881320715    
 Time spent in Adding_alphas_pdf :    14.0294809    
 Time spent in Reweight_scale :    54.4101181    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    19.5811043    
 Time spent in Applying_cuts :    6.89979172    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    49.6211205    
 Time spent in Other_tasks :    28.6019287    
 Time spent in Total :    868.897461    
Time in seconds: 871



LOG file for integration channel /P0_dxd_emep/all_G1_8, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23018
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      862003
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6471856703035443E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           8
 Weight multiplier:   4.3478260869565216E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      862003           1
 imode is           -1
channel    1 :     1 F        0    11174  0.4567E-05  0.0000E+00  0.7609E+00
channel    2 :     1 F        0    11222  0.4528E-05  0.0000E+00  0.8606E+00
channel    3 :     2 F        0    20584  0.8729E-05  0.0000E+00  0.7393E+00
channel    4 :     2 F        0    22555  0.8818E-05  0.0000E+00  0.7654E+00
 ------- iteration           1
 Update # PS points (even_rn):       862003  -->       839808
Using random seed offsets:     0 ,      4 ,  25256
  with seed                   49
 Ranmar initialization seeds         124        4602
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.428531D+04 0.428531D+04  1.00
 muF1, muF1_reference: 0.428531D+04 0.428531D+04  1.00
 muF2, muF2_reference: 0.428531D+04 0.428531D+04  1.00
 QES,  QES_reference:  0.428531D+04 0.428531D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4897556171795360E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4897556171795360E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7133073424394811E-006           OLP:   -1.7133073424394828E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0805221661376102E-006           OLP:   -2.0805221661375772E-006
  FINITE:
           OLP:   -1.8418352791204574E-004
           BORN:    6.4189857816830719E-004
  MOMENTA (Exyzm): 
           1   2142.6525847059552        0.0000000000000000        0.0000000000000000        2142.6525847059552        0.0000000000000000     
           2   2142.6525847059552       -0.0000000000000000       -0.0000000000000000       -2142.6525847059552        0.0000000000000000     
           3   2142.6525847059552       -1539.6012873112388       -1403.5437275038071        500.65255401466402        0.0000000000000000     
           4   2142.6525847059552        1539.6012873112388        1403.5437275038071       -500.65255401466402        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7133073424394811E-006           OLP:   -1.7133073424394828E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0805221661376102E-006           OLP:   -2.0805221661375772E-006
 REAL 1: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 Error #15 in genps_fks.f  -1.3732351362705231E-006           3
 Error #15 in genps_fks.f  -1.0579824447631836E-006           4
ABS integral  = 0.1161E-05  +/-  0.2178E-08  (   0.188 %)
Integral      = 0.8064E-06  +/-  0.2361E-08  (   0.293 %)
Virtual       = -.1504E-09  +/-  0.1133E-08  ( 753.636 %)
Virtual ratio = -.2848E+00  +/-  0.3297E-03  (   0.116 %)
ABS virtual   = 0.5044E-06  +/-  0.9909E-09  (   0.196 %)
Born          = 0.2395E-05  +/-  0.3517E-08  (   0.147 %)
V  2          = -.1504E-09  +/-  0.1133E-08  ( 753.636 %)
B  2          = 0.2395E-05  +/-  0.3517E-08  (   0.147 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1161E-05  +/-  0.2178E-08  (   0.188 %)
accumulated results Integral      = 0.8064E-06  +/-  0.2361E-08  (   0.293 %)
accumulated results Virtual       = -.1504E-09  +/-  0.1133E-08  ( 753.636 %)
accumulated results Virtual ratio = -.2848E+00  +/-  0.3297E-03  (   0.116 %)
accumulated results ABS virtual   = 0.5044E-06  +/-  0.9909E-09  (   0.196 %)
accumulated results Born          = 0.2395E-05  +/-  0.3517E-08  (   0.147 %)
accumulated results V  2          = -.1504E-09  +/-  0.1133E-08  ( 753.636 %)
accumulated results B  2          = 0.2395E-05  +/-  0.3517E-08  (   0.147 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                  1                                                2
  2:  0                            1                                 2                 3                  4
channel    1 :     1 T   144108    11174  0.1980E-06  0.1329E-06  0.7403E+00
channel    2 :     1 T   143313    11222  0.1980E-06  0.1370E-06  0.8550E+00
channel    3 :     2 T   275074    20584  0.3828E-06  0.2647E-06  0.6197E+00
channel    4 :     2 T   277316    22555  0.3819E-06  0.2718E-06  0.7555E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1607603018940226E-006  +/-   2.1777949983280497E-009
 Final result:   8.0640738154503024E-007  +/-   2.3606837857533832E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    474455
   Stability unknown:                                          0
   Stable PS point:                                       474455
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 474455
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       474455
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.78274083    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.06047058    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.08899164    
 Time spent in Integrated_CT :    12.6616821    
 Time spent in Virtuals :    661.101746    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.4334278    
 Time spent in N1body_prefactor :   0.897321761    
 Time spent in Adding_alphas_pdf :    13.9975996    
 Time spent in Reweight_scale :    54.4532623    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    19.7940311    
 Time spent in Applying_cuts :    7.06694794    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    49.9218063    
 Time spent in Other_tasks :    29.4431763    
 Time spent in Total :    876.703186    
Time in seconds: 882



LOG file for integration channel /P0_dxd_emep/all_G1_9, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23029
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      862003
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6471856703035443E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           9
 Weight multiplier:   4.3478260869565216E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      862003           1
 imode is           -1
channel    1 :     1 F        0    11174  0.4567E-05  0.0000E+00  0.7609E+00
channel    2 :     1 F        0    11222  0.4528E-05  0.0000E+00  0.8606E+00
channel    3 :     2 F        0    20584  0.8729E-05  0.0000E+00  0.7393E+00
channel    4 :     2 F        0    22555  0.8818E-05  0.0000E+00  0.7654E+00
 ------- iteration           1
 Update # PS points (even_rn):       862003  -->       839808
Using random seed offsets:     0 ,      4 ,  28413
  with seed                   49
 Ranmar initialization seeds         124        7759
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.442878D+04 0.442878D+04  1.00
 muF1, muF1_reference: 0.442878D+04 0.442878D+04  1.00
 muF2, muF2_reference: 0.442878D+04 0.442878D+04  1.00
 QES,  QES_reference:  0.442878D+04 0.442878D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4665739964667716E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4665739964667716E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4865159546839941E-006           OLP:   -1.4865159546839926E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6640546203290859E-006           OLP:   -1.6640546203290657E-006
  FINITE:
           OLP:   -1.5772420995150511E-004
           BORN:    5.5693012812140234E-004
  MOMENTA (Exyzm): 
           1   2214.3878600878925        0.0000000000000000        0.0000000000000000        2214.3878600878925        0.0000000000000000     
           2   2214.3878600878925       -0.0000000000000000       -0.0000000000000000       -2214.3878600878925        0.0000000000000000     
           3   2214.3878600878925       -2080.2550216207883       -337.85806334306358        679.63561484092622        0.0000000000000000     
           4   2214.3878600878925        2080.2550216207883        337.85806334306358       -679.63561484092622        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4865159546839941E-006           OLP:   -1.4865159546839926E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6640546203290859E-006           OLP:   -1.6640546203290657E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.1159E-05  +/-  0.2067E-08  (   0.178 %)
Integral      = 0.8075E-06  +/-  0.2258E-08  (   0.280 %)
Virtual       = 0.4066E-09  +/-  0.1139E-08  ( 280.112 %)
Virtual ratio = -.2849E+00  +/-  0.3299E-03  (   0.116 %)
ABS virtual   = 0.5062E-06  +/-  0.9960E-09  (   0.197 %)
Born          = 0.2396E-05  +/-  0.3532E-08  (   0.147 %)
V  2          = 0.4066E-09  +/-  0.1139E-08  ( 280.112 %)
B  2          = 0.2396E-05  +/-  0.3532E-08  (   0.147 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1159E-05  +/-  0.2067E-08  (   0.178 %)
accumulated results Integral      = 0.8075E-06  +/-  0.2258E-08  (   0.280 %)
accumulated results Virtual       = 0.4066E-09  +/-  0.1139E-08  ( 280.112 %)
accumulated results Virtual ratio = -.2849E+00  +/-  0.3299E-03  (   0.116 %)
accumulated results ABS virtual   = 0.5062E-06  +/-  0.9960E-09  (   0.197 %)
accumulated results Born          = 0.2396E-05  +/-  0.3532E-08  (   0.147 %)
accumulated results V  2          = 0.4066E-09  +/-  0.1139E-08  ( 280.112 %)
accumulated results B  2          = 0.2396E-05  +/-  0.3532E-08  (   0.147 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                  1                                                2
  2:  0                            1                                  2                3                  4
channel    1 :     1 T   143285    11174  0.1979E-06  0.1322E-06  0.7093E+00
channel    2 :     1 T   143421    11222  0.1967E-06  0.1349E-06  0.8450E+00
channel    3 :     2 T   274699    20584  0.3824E-06  0.2681E-06  0.7077E+00
channel    4 :     2 T   278403    22555  0.3818E-06  0.2724E-06  0.7767E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1588125337125265E-006  +/-   2.0674309983499493E-009
 Final result:   8.0754839702164975E-007  +/-   2.2575950044780707E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    475092
   Stability unknown:                                          0
   Stable PS point:                                       475092
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 475092
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       475092
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.73107743    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.25517082    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.04808235    
 Time spent in Integrated_CT :    12.3004150    
 Time spent in Virtuals :    661.567566    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.3628254    
 Time spent in N1body_prefactor :   0.869299293    
 Time spent in Adding_alphas_pdf :    14.2306690    
 Time spent in Reweight_scale :    55.1407967    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    19.4766426    
 Time spent in Applying_cuts :    6.95952320    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    49.8446350    
 Time spent in Other_tasks :    29.0126953    
 Time spent in Total :    876.799438    
Time in seconds: 882



LOG file for integration channel /P0_dxd_emep/all_G1_10, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23028
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      862003
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6471856703035443E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          10
 Weight multiplier:   4.3478260869565216E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      862003           1
 imode is           -1
channel    1 :     1 F        0    11174  0.4567E-05  0.0000E+00  0.7609E+00
channel    2 :     1 F        0    11222  0.4528E-05  0.0000E+00  0.8606E+00
channel    3 :     2 F        0    20584  0.8729E-05  0.0000E+00  0.7393E+00
channel    4 :     2 F        0    22555  0.8818E-05  0.0000E+00  0.7654E+00
 ------- iteration           1
 Update # PS points (even_rn):       862003  -->       839808
Using random seed offsets:     0 ,      4 ,  31570
  with seed                   49
 Ranmar initialization seeds         124       10916
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.449156D+04 0.449156D+04  1.00
 muF1, muF1_reference: 0.449156D+04 0.449156D+04  1.00
 muF2, muF2_reference: 0.449156D+04 0.449156D+04  1.00
 QES,  QES_reference:  0.449156D+04 0.449156D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4567097281502459E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4567097281502459E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.0956035075436173E-006           OLP:   -2.0956035075436203E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.8235807190248202E-006           OLP:   -2.8235807190248964E-006
  FINITE:
           OLP:   -2.3391180449112999E-004
           BORN:    7.8512761754786001E-004
  MOMENTA (Exyzm): 
           1   2245.7779704103568        0.0000000000000000        0.0000000000000000        2245.7779704103568        0.0000000000000000     
           2   2245.7779704103568       -0.0000000000000000       -0.0000000000000000       -2245.7779704103568        0.0000000000000000     
           3   2245.7779704103568       -2208.3455323260405       -293.29464568536127        284.08969190799274        0.0000000000000000     
           4   2245.7779704103568        2208.3455323260405        293.29464568536127       -284.08969190799274        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.0956035075436173E-006           OLP:   -2.0956035075436203E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.8235807190248198E-006           OLP:   -2.8235807190248964E-006
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
ABS integral  = 0.1158E-05  +/-  0.2093E-08  (   0.181 %)
Integral      = 0.8052E-06  +/-  0.2281E-08  (   0.283 %)
Virtual       = -.1823E-08  +/-  0.1136E-08  (  62.312 %)
Virtual ratio = -.2860E+00  +/-  0.3299E-03  (   0.115 %)
ABS virtual   = 0.5051E-06  +/-  0.9935E-09  (   0.197 %)
Born          = 0.2391E-05  +/-  0.3510E-08  (   0.147 %)
V  2          = -.1823E-08  +/-  0.1136E-08  (  62.312 %)
B  2          = 0.2391E-05  +/-  0.3510E-08  (   0.147 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1158E-05  +/-  0.2093E-08  (   0.181 %)
accumulated results Integral      = 0.8052E-06  +/-  0.2281E-08  (   0.283 %)
accumulated results Virtual       = -.1823E-08  +/-  0.1136E-08  (  62.312 %)
accumulated results Virtual ratio = -.2860E+00  +/-  0.3299E-03  (   0.115 %)
accumulated results ABS virtual   = 0.5051E-06  +/-  0.9935E-09  (   0.197 %)
accumulated results Born          = 0.2391E-05  +/-  0.3510E-08  (   0.147 %)
accumulated results V  2          = -.1823E-08  +/-  0.1136E-08  (  62.312 %)
accumulated results B  2          = 0.2391E-05  +/-  0.3510E-08  (   0.147 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                  1                                                2
  2:  0                            1                                 2                 3                  4
channel    1 :     1 T   144008    11174  0.2004E-06  0.1327E-06  0.6737E+00
channel    2 :     1 T   142570    11222  0.1949E-06  0.1338E-06  0.8468E+00
channel    3 :     2 T   274739    20584  0.3812E-06  0.2662E-06  0.7003E+00
channel    4 :     2 T   278493    22555  0.3815E-06  0.2724E-06  0.7805E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1579191529038940E-006  +/-   2.0928527611064725E-009
 Final result:   8.0517918663683137E-007  +/-   2.2813553319428361E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    474375
   Stability unknown:                                          0
   Stable PS point:                                       474375
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 474375
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       474375
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.73577797    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.15856743    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.05175400    
 Time spent in Integrated_CT :    12.5406494    
 Time spent in Virtuals :    655.879089    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.3535023    
 Time spent in N1body_prefactor :   0.858848155    
 Time spent in Adding_alphas_pdf :    14.2229137    
 Time spent in Reweight_scale :    54.2876129    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    19.3654556    
 Time spent in Applying_cuts :    6.79236031    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    49.8247757    
 Time spent in Other_tasks :    28.7611084    
 Time spent in Total :    869.832397    
Time in seconds: 873



LOG file for integration channel /P0_dxd_emep/all_G1_11, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23036
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      862003
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6471856703035443E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          11
 Weight multiplier:   4.3478260869565216E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      862003           1
 imode is           -1
channel    1 :     1 F        0    11174  0.4567E-05  0.0000E+00  0.7609E+00
channel    2 :     1 F        0    11222  0.4528E-05  0.0000E+00  0.8606E+00
channel    3 :     2 F        0    20584  0.8729E-05  0.0000E+00  0.7393E+00
channel    4 :     2 F        0    22555  0.8818E-05  0.0000E+00  0.7654E+00
 ------- iteration           1
 Update # PS points (even_rn):       862003  -->       839808
Using random seed offsets:     0 ,      4 ,  34727
  with seed                   49
 Ranmar initialization seeds         124       14073
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.410642D+04 0.410642D+04  1.00
 muF1, muF1_reference: 0.410642D+04 0.410642D+04  1.00
 muF2, muF2_reference: 0.410642D+04 0.410642D+04  1.00
 QES,  QES_reference:  0.410642D+04 0.410642D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5199791624783782E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5199791624783782E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7871682432910741E-006           OLP:   -1.7871682432910733E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2199740252806771E-006           OLP:   -2.2199740252807423E-006
  FINITE:
           OLP:   -1.8873611140126585E-004
           BORN:    6.6957090879134749E-004
  MOMENTA (Exyzm): 
           1   2053.2109763222834        0.0000000000000000        0.0000000000000000        2053.2109763222834        0.0000000000000000     
           2   2053.2109763222834       -0.0000000000000000       -0.0000000000000000       -2053.2109763222834        0.0000000000000000     
           3   2053.2109763222834       -1331.1488836144090       -1501.6481859101618        434.47748928469940        0.0000000000000000     
           4   2053.2109763222834        1331.1488836144090        1501.6481859101618       -434.47748928469940        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7871682432910741E-006           OLP:   -1.7871682432910733E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2199740252806775E-006           OLP:   -2.2199740252807423E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
ABS integral  = 0.1160E-05  +/-  0.2243E-08  (   0.193 %)
Integral      = 0.8048E-06  +/-  0.2422E-08  (   0.301 %)
Virtual       = -.1089E-08  +/-  0.1141E-08  ( 104.773 %)
Virtual ratio = -.2852E+00  +/-  0.3294E-03  (   0.115 %)
ABS virtual   = 0.5069E-06  +/-  0.9982E-09  (   0.197 %)
Born          = 0.2400E-05  +/-  0.3545E-08  (   0.148 %)
V  2          = -.1089E-08  +/-  0.1141E-08  ( 104.773 %)
B  2          = 0.2400E-05  +/-  0.3545E-08  (   0.148 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1160E-05  +/-  0.2243E-08  (   0.193 %)
accumulated results Integral      = 0.8048E-06  +/-  0.2422E-08  (   0.301 %)
accumulated results Virtual       = -.1089E-08  +/-  0.1141E-08  ( 104.773 %)
accumulated results Virtual ratio = -.2852E+00  +/-  0.3294E-03  (   0.115 %)
accumulated results ABS virtual   = 0.5069E-06  +/-  0.9982E-09  (   0.197 %)
accumulated results Born          = 0.2400E-05  +/-  0.3545E-08  (   0.148 %)
accumulated results V  2          = -.1089E-08  +/-  0.1141E-08  ( 104.773 %)
accumulated results B  2          = 0.2400E-05  +/-  0.3545E-08  (   0.148 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                  1                                                2
  2:  0                            1                                  2                3                  4
channel    1 :     1 T   143421    11174  0.1974E-06  0.1316E-06  0.7495E+00
channel    2 :     1 T   142773    11222  0.1974E-06  0.1349E-06  0.8382E+00
channel    3 :     2 T   274872    20584  0.3820E-06  0.2654E-06  0.5889E+00
channel    4 :     2 T   278741    22555  0.3832E-06  0.2728E-06  0.7634E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1600693028245473E-006  +/-   2.2434695824867689E-009
 Final result:   8.0480044845059076E-007  +/-   2.4216453140266770E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    475303
   Stability unknown:                                          0
   Stable PS point:                                       475303
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 475303
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       475303
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.78161967    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.08358765    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.24325466    
 Time spent in Integrated_CT :    12.8544312    
 Time spent in Virtuals :    671.242554    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.6212177    
 Time spent in N1body_prefactor :   0.866398215    
 Time spent in Adding_alphas_pdf :    14.5255041    
 Time spent in Reweight_scale :    53.6567764    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.1219711    
 Time spent in Applying_cuts :    7.11895180    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    50.0872536    
 Time spent in Other_tasks :    29.4982300    
 Time spent in Total :    887.701782    
Time in seconds: 891



LOG file for integration channel /P0_dxd_emep/all_G1_12, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23034
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      862003
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6471856703035443E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          12
 Weight multiplier:   4.3478260869565216E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      862003           1
 imode is           -1
channel    1 :     1 F        0    11174  0.4567E-05  0.0000E+00  0.7609E+00
channel    2 :     1 F        0    11222  0.4528E-05  0.0000E+00  0.8606E+00
channel    3 :     2 F        0    20584  0.8729E-05  0.0000E+00  0.7393E+00
channel    4 :     2 F        0    22555  0.8818E-05  0.0000E+00  0.7654E+00
 ------- iteration           1
 Update # PS points (even_rn):       862003  -->       839808
Using random seed offsets:     0 ,      4 ,  37884
  with seed                   49
 Ranmar initialization seeds         124       17230
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.443673D+04 0.443673D+04  1.00
 muF1, muF1_reference: 0.443673D+04 0.443673D+04  1.00
 muF2, muF2_reference: 0.443673D+04 0.443673D+04  1.00
 QES,  QES_reference:  0.443673D+04 0.443673D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4653153453675195E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4653153453675195E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5951258743242735E-006           OLP:   -1.5951258743242737E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.8613129572935424E-006           OLP:   -1.8613129572935668E-006
  FINITE:
           OLP:   -1.7248944771290549E-004
           BORN:    5.9762134052979837E-004
  MOMENTA (Exyzm): 
           1   2218.3637245321470        0.0000000000000000        0.0000000000000000        2218.3637245321470        0.0000000000000000     
           2   2218.3637245321470       -0.0000000000000000       -0.0000000000000000       -2218.3637245321470        0.0000000000000000     
           3   2218.3637245321470       -1904.8738661325508       -965.41021872033389        600.48003966470537        0.0000000000000000     
           4   2218.3637245321470        1904.8738661325508        965.41021872033389       -600.48003966470537        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5951258743242735E-006           OLP:   -1.5951258743242737E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.8613129572935424E-006           OLP:   -1.8613129572935668E-006
 REAL 1: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.1158E-05  +/-  0.2038E-08  (   0.176 %)
Integral      = 0.8066E-06  +/-  0.2231E-08  (   0.277 %)
Virtual       = -.1037E-08  +/-  0.1143E-08  ( 110.228 %)
Virtual ratio = -.2855E+00  +/-  0.3299E-03  (   0.116 %)
ABS virtual   = 0.5054E-06  +/-  0.1001E-08  (   0.198 %)
Born          = 0.2395E-05  +/-  0.3549E-08  (   0.148 %)
V  2          = -.1037E-08  +/-  0.1143E-08  ( 110.228 %)
B  2          = 0.2395E-05  +/-  0.3549E-08  (   0.148 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1158E-05  +/-  0.2038E-08  (   0.176 %)
accumulated results Integral      = 0.8066E-06  +/-  0.2231E-08  (   0.277 %)
accumulated results Virtual       = -.1037E-08  +/-  0.1143E-08  ( 110.228 %)
accumulated results Virtual ratio = -.2855E+00  +/-  0.3299E-03  (   0.116 %)
accumulated results ABS virtual   = 0.5054E-06  +/-  0.1001E-08  (   0.198 %)
accumulated results Born          = 0.2395E-05  +/-  0.3549E-08  (   0.148 %)
accumulated results V  2          = -.1037E-08  +/-  0.1143E-08  ( 110.228 %)
accumulated results B  2          = 0.2395E-05  +/-  0.3549E-08  (   0.148 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                  1                                                2
  2:  0                            1                                  2                3                  4
channel    1 :     1 T   143900    11174  0.1994E-06  0.1335E-06  0.7465E+00
channel    2 :     1 T   142088    11222  0.1964E-06  0.1347E-06  0.8142E+00
channel    3 :     2 T   275743    20584  0.3808E-06  0.2655E-06  0.7103E+00
channel    4 :     2 T   278075    22555  0.3816E-06  0.2729E-06  0.8010E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1582056538024575E-006  +/-   2.0381406922365712E-009
 Final result:   8.0663130774156537E-007  +/-   2.2308227406872090E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    474040
   Stability unknown:                                          0
   Stable PS point:                                       474040
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 474040
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       474040
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.74480820    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.06445503    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.19516087    
 Time spent in Integrated_CT :    12.8364868    
 Time spent in Virtuals :    673.519470    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.5274754    
 Time spent in N1body_prefactor :   0.872738898    
 Time spent in Adding_alphas_pdf :    13.9748001    
 Time spent in Reweight_scale :    53.6974068    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.2919159    
 Time spent in Applying_cuts :    7.13739681    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    49.8290558    
 Time spent in Other_tasks :    29.6609497    
 Time spent in Total :    889.352051    
Time in seconds: 895



LOG file for integration channel /P0_dxd_emep/all_G1_13, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23025
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      862003
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6471856703035443E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          13
 Weight multiplier:   4.3478260869565216E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      862003           1
 imode is           -1
channel    1 :     1 F        0    11174  0.4567E-05  0.0000E+00  0.7609E+00
channel    2 :     1 F        0    11222  0.4528E-05  0.0000E+00  0.8606E+00
channel    3 :     2 F        0    20584  0.8729E-05  0.0000E+00  0.7393E+00
channel    4 :     2 F        0    22555  0.8818E-05  0.0000E+00  0.7654E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       862003  -->       839808
Using random seed offsets:     0 ,      4 ,  41041
  with seed                   49
 Ranmar initialization seeds         124       20387
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.442066D+04 0.442066D+04  1.00
 muF1, muF1_reference: 0.442066D+04 0.442066D+04  1.00
 muF2, muF2_reference: 0.442066D+04 0.442066D+04  1.00
 QES,  QES_reference:  0.442066D+04 0.442066D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4678616213183807E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 alpha_s value used for the virtuals is (for the first PS point):    7.4874430202434478E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4188763282723249E-006           OLP:   -1.4188763282723232E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5431595155856469E-006           OLP:   -1.5431595155856603E-006
  FINITE:
           OLP:   -1.4586745213200850E-004
           BORN:    5.3158862695228592E-004
  MOMENTA (Exyzm): 
           1   2149.6842680783780        0.0000000000000000        0.0000000000000000        2149.6842680783780        0.0000000000000000     
           2   2149.6842680783780       -0.0000000000000000       -0.0000000000000000       -2149.6842680783780        0.0000000000000000     
           3   2149.6842680783780       -1251.5027503811018       -1596.6664378394241        711.01308320548787        0.0000000000000000     
           4   2149.6842680783780        1251.5027503811018        1596.6664378394241       -711.01308320548787        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4188763282723249E-006           OLP:   -1.4188763282723232E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5431595155856469E-006           OLP:   -1.5431595155856603E-006
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 Error #15 in genps_fks.f  -1.1473894119262695E-006           4
ABS integral  = 0.1159E-05  +/-  0.2089E-08  (   0.180 %)
Integral      = 0.8072E-06  +/-  0.2278E-08  (   0.282 %)
Virtual       = 0.1116E-08  +/-  0.1139E-08  ( 102.091 %)
Virtual ratio = -.2849E+00  +/-  0.3302E-03  (   0.116 %)
ABS virtual   = 0.5048E-06  +/-  0.9968E-09  (   0.197 %)
Born          = 0.2391E-05  +/-  0.3520E-08  (   0.147 %)
V  2          = 0.1116E-08  +/-  0.1139E-08  ( 102.091 %)
B  2          = 0.2391E-05  +/-  0.3520E-08  (   0.147 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1159E-05  +/-  0.2089E-08  (   0.180 %)
accumulated results Integral      = 0.8072E-06  +/-  0.2278E-08  (   0.282 %)
accumulated results Virtual       = 0.1116E-08  +/-  0.1139E-08  ( 102.091 %)
accumulated results Virtual ratio = -.2849E+00  +/-  0.3302E-03  (   0.116 %)
accumulated results ABS virtual   = 0.5048E-06  +/-  0.9968E-09  (   0.197 %)
accumulated results Born          = 0.2391E-05  +/-  0.3520E-08  (   0.147 %)
accumulated results V  2          = 0.1116E-08  +/-  0.1139E-08  ( 102.091 %)
accumulated results B  2          = 0.2391E-05  +/-  0.3520E-08  (   0.147 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                  1                                                2
  2:  0                            1                                 2                 3                  4
channel    1 :     1 T   144085    11174  0.1987E-06  0.1329E-06  0.7209E+00
channel    2 :     1 T   143192    11222  0.1983E-06  0.1373E-06  0.8472E+00
channel    3 :     2 T   275025    20584  0.3804E-06  0.2634E-06  0.6745E+00
channel    4 :     2 T   277506    22555  0.3817E-06  0.2735E-06  0.7854E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1591190112834319E-006  +/-   2.0894421382585058E-009
 Final result:   8.0720166913561950E-007  +/-   2.2781012479295713E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    474214
   Stability unknown:                                          0
   Stable PS point:                                       474214
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 474214
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       474214
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.77463222    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.05553150    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.12128162    
 Time spent in Integrated_CT :    12.6492920    
 Time spent in Virtuals :    658.593506    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.3923950    
 Time spent in N1body_prefactor :   0.890102744    
 Time spent in Adding_alphas_pdf :    14.1283016    
 Time spent in Reweight_scale :    54.2835541    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    19.6679420    
 Time spent in Applying_cuts :    6.90375090    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    50.0493774    
 Time spent in Other_tasks :    28.8676147    
 Time spent in Total :    873.377258    
Time in seconds: 878



LOG file for integration channel /P0_dxd_emep/all_G1_14, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23016
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      862003
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6471856703035443E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          14
 Weight multiplier:   4.3478260869565216E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      862003           1
 imode is           -1
channel    1 :     1 F        0    11174  0.4567E-05  0.0000E+00  0.7609E+00
channel    2 :     1 F        0    11222  0.4528E-05  0.0000E+00  0.8606E+00
channel    3 :     2 F        0    20584  0.8729E-05  0.0000E+00  0.7393E+00
channel    4 :     2 F        0    22555  0.8818E-05  0.0000E+00  0.7654E+00
 ------- iteration           1
 Update # PS points (even_rn):       862003  -->       839808
Using random seed offsets:     0 ,      4 ,  44198
  with seed                   49
 Ranmar initialization seeds         124       23544
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.443419D+04 0.443419D+04  1.00
 muF1, muF1_reference: 0.443419D+04 0.443419D+04  1.00
 muF2, muF2_reference: 0.443419D+04 0.443419D+04  1.00
 QES,  QES_reference:  0.443419D+04 0.443419D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4657162058603607E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4657162058603607E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7557617769359854E-006           OLP:   -1.7557617769359865E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1605250779209130E-006           OLP:   -2.1605250779210155E-006
  FINITE:
           OLP:   -1.9290189113984279E-004
           BORN:    6.5780432984823868E-004
  MOMENTA (Exyzm): 
           1   2217.0965459468462        0.0000000000000000        0.0000000000000000        2217.0965459468462        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2217.0965459468462       -0.0000000000000000       -0.0000000000000000       -2217.0965459468462        0.0000000000000000     
           3   2217.0965459468462       -1600.2065393729301       -1454.3356988697158        489.65681899743015        0.0000000000000000     
           4   2217.0965459468462        1600.2065393729301        1454.3356988697158       -489.65681899743015        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7557617769359854E-006           OLP:   -1.7557617769359865E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1605250779209130E-006           OLP:   -2.1605250779210155E-006
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.1159E-05  +/-  0.2066E-08  (   0.178 %)
Integral      = 0.8062E-06  +/-  0.2257E-08  (   0.280 %)
Virtual       = -.1023E-08  +/-  0.1133E-08  ( 110.741 %)
Virtual ratio = -.2849E+00  +/-  0.3294E-03  (   0.116 %)
ABS virtual   = 0.5051E-06  +/-  0.9902E-09  (   0.196 %)
Born          = 0.2395E-05  +/-  0.3513E-08  (   0.147 %)
V  2          = -.1023E-08  +/-  0.1133E-08  ( 110.741 %)
B  2          = 0.2395E-05  +/-  0.3513E-08  (   0.147 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1159E-05  +/-  0.2066E-08  (   0.178 %)
accumulated results Integral      = 0.8062E-06  +/-  0.2257E-08  (   0.280 %)
accumulated results Virtual       = -.1023E-08  +/-  0.1133E-08  ( 110.741 %)
accumulated results Virtual ratio = -.2849E+00  +/-  0.3294E-03  (   0.116 %)
accumulated results ABS virtual   = 0.5051E-06  +/-  0.9902E-09  (   0.196 %)
accumulated results Born          = 0.2395E-05  +/-  0.3513E-08  (   0.147 %)
accumulated results V  2          = -.1023E-08  +/-  0.1133E-08  ( 110.741 %)
accumulated results B  2          = 0.2395E-05  +/-  0.3513E-08  (   0.147 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                  1                                                2
  2:  0                            1                                 2                 3                  4
channel    1 :     1 T   143894    11174  0.1990E-06  0.1318E-06  0.7008E+00
channel    2 :     1 T   143192    11222  0.1980E-06  0.1364E-06  0.8558E+00
channel    3 :     2 T   275024    20584  0.3821E-06  0.2659E-06  0.6897E+00
channel    4 :     2 T   277698    22555  0.3803E-06  0.2721E-06  0.7868E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1594045584408924E-006  +/-   2.0660544722853430E-009
 Final result:   8.0624702790911731E-007  +/-   2.2572506128228352E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    475047
   Stability unknown:                                          0
   Stable PS point:                                       475047
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 475047
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       475047
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.76956534    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.06407356    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.13857079    
 Time spent in Integrated_CT :    12.6135864    
 Time spent in Virtuals :    663.680725    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.4270706    
 Time spent in N1body_prefactor :   0.885803998    
 Time spent in Adding_alphas_pdf :    14.1906738    
 Time spent in Reweight_scale :    54.5214081    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    19.7870255    
 Time spent in Applying_cuts :    6.96359777    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    49.7849998    
 Time spent in Other_tasks :    29.3768311    
 Time spent in Total :    879.203979    
Time in seconds: 884



LOG file for integration channel /P0_dxd_emep/all_G1_15, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23030
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      862003
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6471856703035443E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          15
 Weight multiplier:   4.3478260869565216E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      862003           1
 imode is           -1
channel    1 :     1 F        0    11174  0.4567E-05  0.0000E+00  0.7609E+00
channel    2 :     1 F        0    11222  0.4528E-05  0.0000E+00  0.8606E+00
channel    3 :     2 F        0    20584  0.8729E-05  0.0000E+00  0.7393E+00
channel    4 :     2 F        0    22555  0.8818E-05  0.0000E+00  0.7654E+00
 ------- iteration           1
 Update # PS points (even_rn):       862003  -->       839808
Using random seed offsets:     0 ,      4 ,  47355
  with seed                   49
 Ranmar initialization seeds         124       26701
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.425779D+04 0.425779D+04  1.00
 muF1, muF1_reference: 0.425779D+04 0.425779D+04  1.00
 muF2, muF2_reference: 0.425779D+04 0.425779D+04  1.00
 QES,  QES_reference:  0.425779D+04 0.425779D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4943068994968845E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4943068994968845E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.9104099631671113E-006           OLP:   -1.9104099631671130E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.4571113203527280E-006           OLP:   -2.4571113203527635E-006
  FINITE:
           OLP:   -2.0688505850496213E-004
           BORN:    7.1574399332783635E-004
  MOMENTA (Exyzm): 
           1   2128.8932074369714        0.0000000000000000        0.0000000000000000        2128.8932074369714        0.0000000000000000     
           2   2128.8932074369714       -0.0000000000000000       -0.0000000000000000       -2128.8932074369714        0.0000000000000000     
           3   2128.8932074369714       -1961.7725005166383       -736.69507250880054        375.38688713009981        0.0000000000000000     
           4   2128.8932074369714        1961.7725005166383        736.69507250880054       -375.38688713009981        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.9104099631671113E-006           OLP:   -1.9104099631671130E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.4571113203527280E-006           OLP:   -2.4571113203527635E-006
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
ABS integral  = 0.1159E-05  +/-  0.2083E-08  (   0.180 %)
Integral      = 0.8062E-06  +/-  0.2273E-08  (   0.282 %)
Virtual       = 0.3899E-10  +/-  0.1141E-08  ( ******* %)
Virtual ratio = -.2853E+00  +/-  0.3301E-03  (   0.116 %)
ABS virtual   = 0.5059E-06  +/-  0.9987E-09  (   0.197 %)
Born          = 0.2393E-05  +/-  0.3528E-08  (   0.147 %)
V  2          = 0.3899E-10  +/-  0.1141E-08  ( ******* %)
B  2          = 0.2393E-05  +/-  0.3528E-08  (   0.147 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1159E-05  +/-  0.2083E-08  (   0.180 %)
accumulated results Integral      = 0.8062E-06  +/-  0.2273E-08  (   0.282 %)
accumulated results Virtual       = 0.3899E-10  +/-  0.1141E-08  ( ******* %)
accumulated results Virtual ratio = -.2853E+00  +/-  0.3301E-03  (   0.116 %)
accumulated results ABS virtual   = 0.5059E-06  +/-  0.9987E-09  (   0.197 %)
accumulated results Born          = 0.2393E-05  +/-  0.3528E-08  (   0.147 %)
accumulated results V  2          = 0.3899E-10  +/-  0.1141E-08  ( ******* %)
accumulated results B  2          = 0.2393E-05  +/-  0.3528E-08  (   0.147 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                  1                                                2
  2:  0                            1                                 2                 3                  4
channel    1 :     1 T   144387    11174  0.2008E-06  0.1324E-06  0.7317E+00
channel    2 :     1 T   143015    11222  0.1969E-06  0.1357E-06  0.8383E+00
channel    3 :     2 T   274743    20584  0.3809E-06  0.2658E-06  0.7152E+00
channel    4 :     2 T   277662    22555  0.3807E-06  0.2722E-06  0.7523E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1594545675044671E-006  +/-   2.0828972842393501E-009
 Final result:   8.0615928940785635E-007  +/-   2.2727443504600203E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    474218
   Stability unknown:                                          0
   Stable PS point:                                       474218
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 474218
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       474218
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.75085282    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.44833660    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.07233047    
 Time spent in Integrated_CT :    12.6726074    
 Time spent in Virtuals :    658.770081    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.4330158    
 Time spent in N1body_prefactor :   0.919086933    
 Time spent in Adding_alphas_pdf :    14.2207298    
 Time spent in Reweight_scale :    54.5798035    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.2571411    
 Time spent in Applying_cuts :    6.99033403    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    49.9120903    
 Time spent in Other_tasks :    29.0547485    
 Time spent in Total :    875.081177    
Time in seconds: 881



LOG file for integration channel /P0_dxd_emep/all_G1_16, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23027
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      862003
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6471856703035443E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          16
 Weight multiplier:   4.3478260869565216E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      862003           1
 imode is           -1
channel    1 :     1 F        0    11174  0.4567E-05  0.0000E+00  0.7609E+00
channel    2 :     1 F        0    11222  0.4528E-05  0.0000E+00  0.8606E+00
channel    3 :     2 F        0    20584  0.8729E-05  0.0000E+00  0.7393E+00
channel    4 :     2 F        0    22555  0.8818E-05  0.0000E+00  0.7654E+00
 ------- iteration           1
 Update # PS points (even_rn):       862003  -->       839808
Using random seed offsets:     0 ,      4 ,  50512
  with seed                   49
 Ranmar initialization seeds         124       29858
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.446577D+04 0.446577D+04  1.00
 muF1, muF1_reference: 0.446577D+04 0.446577D+04  1.00
 muF2, muF2_reference: 0.446577D+04 0.446577D+04  1.00
 QES,  QES_reference:  0.446577D+04 0.446577D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4607406843184704E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4607406843184704E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.2942288207761284E-006           OLP:   -1.2942288207761295E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.3242122292726800E-006           OLP:   -1.3242122292725855E-006
  FINITE:
           OLP:   -1.3071626835829654E-004
           BORN:    4.8488885753431986E-004
  MOMENTA (Exyzm): 
           1   2232.8865929960489        0.0000000000000000        0.0000000000000000        2232.8865929960489        0.0000000000000000     
           2   2232.8865929960489       -0.0000000000000000       -0.0000000000000000       -2232.8865929960489        0.0000000000000000     
           3   2232.8865929960489       -1685.2312246328299       -1197.7325489299822        843.33563777284030        0.0000000000000000     
           4   2232.8865929960489        1685.2312246328299        1197.7325489299822       -843.33563777284030        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.2942288207761284E-006           OLP:   -1.2942288207761295E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -1.3242122292726802E-006           OLP:   -1.3242122292725855E-006
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
ABS integral  = 0.1158E-05  +/-  0.2015E-08  (   0.174 %)
Integral      = 0.8059E-06  +/-  0.2210E-08  (   0.274 %)
Virtual       = -.9944E-11  +/-  0.1129E-08  ( ******* %)
Virtual ratio = -.2848E+00  +/-  0.3300E-03  (   0.116 %)
ABS virtual   = 0.5053E-06  +/-  0.9847E-09  (   0.195 %)
Born          = 0.2390E-05  +/-  0.3504E-08  (   0.147 %)
V  2          = -.9944E-11  +/-  0.1129E-08  ( ******* %)
B  2          = 0.2390E-05  +/-  0.3504E-08  (   0.147 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1158E-05  +/-  0.2015E-08  (   0.174 %)
accumulated results Integral      = 0.8059E-06  +/-  0.2210E-08  (   0.274 %)
accumulated results Virtual       = -.9944E-11  +/-  0.1129E-08  ( ******* %)
accumulated results Virtual ratio = -.2848E+00  +/-  0.3300E-03  (   0.116 %)
accumulated results ABS virtual   = 0.5053E-06  +/-  0.9847E-09  (   0.195 %)
accumulated results Born          = 0.2390E-05  +/-  0.3504E-08  (   0.147 %)
accumulated results V  2          = -.9944E-11  +/-  0.1129E-08  ( ******* %)
accumulated results B  2          = 0.2390E-05  +/-  0.3504E-08  (   0.147 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                  1                                                2
  2:  0                            1                                  2                3                  4
channel    1 :     1 T   143581    11174  0.1982E-06  0.1327E-06  0.7333E+00
channel    2 :     1 T   143018    11222  0.1964E-06  0.1351E-06  0.8402E+00
channel    3 :     2 T   276095    20584  0.3836E-06  0.2667E-06  0.7110E+00
channel    4 :     2 T   277116    22555  0.3796E-06  0.2715E-06  0.7893E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1577617612153827E-006  +/-   2.0149522734341019E-009
 Final result:   8.0592951126156673E-007  +/-   2.2096852044579031E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    474663
   Stability unknown:                                          0
   Stable PS point:                                       474663
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 474663
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       474663
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.77258253    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    7.97090816    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.07696056    
 Time spent in Integrated_CT :    12.6804199    
 Time spent in Virtuals :    662.725037    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.3410187    
 Time spent in N1body_prefactor :   0.885758817    
 Time spent in Adding_alphas_pdf :    14.0440063    
 Time spent in Reweight_scale :    54.5062943    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    19.6381340    
 Time spent in Applying_cuts :    6.98036480    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    50.1020775    
 Time spent in Other_tasks :    28.7849121    
 Time spent in Total :    877.508362    
Time in seconds: 883



LOG file for integration channel /P0_dxd_emep/all_G1_17, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23031
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      862003
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6471856703035443E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          17
 Weight multiplier:   4.3478260869565216E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      862003           1
 imode is           -1
channel    1 :     1 F        0    11174  0.4567E-05  0.0000E+00  0.7609E+00
channel    2 :     1 F        0    11222  0.4528E-05  0.0000E+00  0.8606E+00
channel    3 :     2 F        0    20584  0.8729E-05  0.0000E+00  0.7393E+00
channel    4 :     2 F        0    22555  0.8818E-05  0.0000E+00  0.7654E+00
 ------- iteration           1
 Update # PS points (even_rn):       862003  -->       839808
Using random seed offsets:     0 ,      4 ,  53669
  with seed                   49
 Ranmar initialization seeds         124        2934
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.430316D+04 0.430316D+04  1.00
 muF1, muF1_reference: 0.430316D+04 0.430316D+04  1.00
 muF2, muF2_reference: 0.430316D+04 0.430316D+04  1.00
 QES,  QES_reference:  0.430316D+04 0.430316D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4868215984905798E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4868215984905798E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4166910652297651E-006           OLP:   -1.4166910652297664E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5392805671832159E-006           OLP:   -1.5392805671834442E-006
  FINITE:
           OLP:   -1.4563348473147706E-004
           BORN:    5.3076990797221917E-004
  MOMENTA (Exyzm): 
           1   2151.5784101666068        0.0000000000000000        0.0000000000000000        2151.5784101666068        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
           2   2151.5784101666068       -0.0000000000000000       -0.0000000000000000       -2151.5784101666068        0.0000000000000000     
           3   2151.5784101666068       -1294.1253262725011       -1563.8689883812344        713.33237847066141        0.0000000000000000     
           4   2151.5784101666068        1294.1253262725011        1563.8689883812344       -713.33237847066141        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4166910652297651E-006           OLP:   -1.4166910652297664E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5392805671832159E-006           OLP:   -1.5392805671834442E-006
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 Error #15 in genps_fks.f  -1.0728836059570312E-006           3
ABS integral  = 0.1157E-05  +/-  0.2070E-08  (   0.179 %)
Integral      = 0.8037E-06  +/-  0.2261E-08  (   0.281 %)
Virtual       = -.9419E-09  +/-  0.1133E-08  ( 120.246 %)
Virtual ratio = -.2853E+00  +/-  0.3299E-03  (   0.116 %)
ABS virtual   = 0.5055E-06  +/-  0.9893E-09  (   0.196 %)
Born          = 0.2392E-05  +/-  0.3508E-08  (   0.147 %)
V  2          = -.9419E-09  +/-  0.1133E-08  ( 120.246 %)
B  2          = 0.2392E-05  +/-  0.3508E-08  (   0.147 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1157E-05  +/-  0.2070E-08  (   0.179 %)
accumulated results Integral      = 0.8037E-06  +/-  0.2261E-08  (   0.281 %)
accumulated results Virtual       = -.9419E-09  +/-  0.1133E-08  ( 120.246 %)
accumulated results Virtual ratio = -.2853E+00  +/-  0.3299E-03  (   0.116 %)
accumulated results ABS virtual   = 0.5055E-06  +/-  0.9893E-09  (   0.196 %)
accumulated results Born          = 0.2392E-05  +/-  0.3508E-08  (   0.147 %)
accumulated results V  2          = -.9419E-09  +/-  0.1133E-08  ( 120.246 %)
accumulated results B  2          = 0.2392E-05  +/-  0.3508E-08  (   0.147 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                  1                                                2
  2:  0                            1                                 2                 3                  4
channel    1 :     1 T   143912    11174  0.1987E-06  0.1317E-06  0.7053E+00
channel    2 :     1 T   143057    11222  0.1958E-06  0.1342E-06  0.8328E+00
channel    3 :     2 T   274717    20584  0.3811E-06  0.2654E-06  0.6907E+00
channel    4 :     2 T   278119    22555  0.3818E-06  0.2724E-06  0.7891E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1574106482117252E-006  +/-   2.0698224241902309E-009
 Final result:   8.0372840822327254E-007  +/-   2.2605512183961891E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    474345
   Stability unknown:                                          0
   Stable PS point:                                       474345
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 474345
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       474345
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.72012281    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.08186436    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.14480066    
 Time spent in Integrated_CT :    12.3944702    
 Time spent in Virtuals :    657.919800    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.4123440    
 Time spent in N1body_prefactor :   0.874814570    
 Time spent in Adding_alphas_pdf :    14.0165787    
 Time spent in Reweight_scale :    54.3593292    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    19.4039421    
 Time spent in Applying_cuts :    6.94830990    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    50.2534561    
 Time spent in Other_tasks :    28.3367310    
 Time spent in Total :    871.866577    
Time in seconds: 876



LOG file for integration channel /P0_dxd_emep/all_G1_18, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23019
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      862003
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6471856703035443E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          18
 Weight multiplier:   4.3478260869565216E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      862003           1
 imode is           -1
channel    1 :     1 F        0    11174  0.4567E-05  0.0000E+00  0.7609E+00
channel    2 :     1 F        0    11222  0.4528E-05  0.0000E+00  0.8606E+00
channel    3 :     2 F        0    20584  0.8729E-05  0.0000E+00  0.7393E+00
channel    4 :     2 F        0    22555  0.8818E-05  0.0000E+00  0.7654E+00
 ------- iteration           1
 Update # PS points (even_rn):       862003  -->       839808
Using random seed offsets:     0 ,      4 ,  56826
  with seed                   49
 Ranmar initialization seeds         124        6091
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.446482D+04 0.446482D+04  1.00
 muF1, muF1_reference: 0.446482D+04 0.446482D+04  1.00
 muF2, muF2_reference: 0.446482D+04 0.446482D+04  1.00
 QES,  QES_reference:  0.446482D+04 0.446482D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4608905885995030E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4608905885995030E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.1795867873108911E-006           OLP:   -1.1795867873108917E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.1264742149043527E-006           OLP:   -1.1264742149044666E-006
  FINITE:
           OLP:   -1.1286567666454166E-004
           BORN:    4.4193768557769893E-004
  MOMENTA (Exyzm): 
           1   2232.4088984899795        0.0000000000000000        0.0000000000000000        2232.4088984899795        0.0000000000000000     
           2   2232.4088984899795       -0.0000000000000000       -0.0000000000000000       -2232.4088984899795        0.0000000000000000     
           3   2232.4088984899795       -1233.2716936631271       -1600.3420797255487        949.52390571603382        0.0000000000000000     
           4   2232.4088984899795        1233.2716936631271        1600.3420797255487       -949.52390571603382        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.1795867873108911E-006           OLP:   -1.1795867873108917E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.1264742149043527E-006           OLP:   -1.1264742149044666E-006
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.1159E-05  +/-  0.2047E-08  (   0.177 %)
Integral      = 0.8078E-06  +/-  0.2238E-08  (   0.277 %)
Virtual       = 0.7698E-10  +/-  0.1145E-08  ( ******* %)
Virtual ratio = -.2853E+00  +/-  0.3296E-03  (   0.115 %)
ABS virtual   = 0.5066E-06  +/-  0.1003E-08  (   0.198 %)
Born          = 0.2396E-05  +/-  0.3533E-08  (   0.147 %)
V  2          = 0.7698E-10  +/-  0.1145E-08  ( ******* %)
B  2          = 0.2396E-05  +/-  0.3533E-08  (   0.147 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1159E-05  +/-  0.2047E-08  (   0.177 %)
accumulated results Integral      = 0.8078E-06  +/-  0.2238E-08  (   0.277 %)
accumulated results Virtual       = 0.7698E-10  +/-  0.1145E-08  ( ******* %)
accumulated results Virtual ratio = -.2853E+00  +/-  0.3296E-03  (   0.115 %)
accumulated results ABS virtual   = 0.5066E-06  +/-  0.1003E-08  (   0.198 %)
accumulated results Born          = 0.2396E-05  +/-  0.3533E-08  (   0.147 %)
accumulated results V  2          = 0.7698E-10  +/-  0.1145E-08  ( ******* %)
accumulated results B  2          = 0.2396E-05  +/-  0.3533E-08  (   0.147 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                  1                                                2
  2:  0                            1                                  2                3                  4
channel    1 :     1 T   144502    11174  0.1994E-06  0.1321E-06  0.7222E+00
channel    2 :     1 T   142557    11222  0.1967E-06  0.1359E-06  0.8543E+00
channel    3 :     2 T   274632    20584  0.3819E-06  0.2677E-06  0.7125E+00
channel    4 :     2 T   278115    22555  0.3806E-06  0.2720E-06  0.7919E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1586550878764841E-006  +/-   2.0467372945253918E-009
 Final result:   8.0782434782368547E-007  +/-   2.2384442269148438E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    474803
   Stability unknown:                                          0
   Stable PS point:                                       474803
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 474803
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       474803
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.78013468    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.08845139    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.05543184    
 Time spent in Integrated_CT :    12.4769897    
 Time spent in Virtuals :    657.173157    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.5840359    
 Time spent in N1body_prefactor :   0.892511606    
 Time spent in Adding_alphas_pdf :    14.1141109    
 Time spent in Reweight_scale :    54.9436722    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    19.6748810    
 Time spent in Applying_cuts :    6.86658049    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    49.7328682    
 Time spent in Other_tasks :    28.8300171    
 Time spent in Total :    872.212830    
Time in seconds: 876



LOG file for integration channel /P0_dxd_emep/all_G1_19, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23037
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      862003
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6471856703035443E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          19
 Weight multiplier:   4.3478260869565216E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      862003           1
 imode is           -1
channel    1 :     1 F        0    11174  0.4567E-05  0.0000E+00  0.7609E+00
channel    2 :     1 F        0    11222  0.4528E-05  0.0000E+00  0.8606E+00
channel    3 :     2 F        0    20584  0.8729E-05  0.0000E+00  0.7393E+00
channel    4 :     2 F        0    22555  0.8818E-05  0.0000E+00  0.7654E+00
 ------- iteration           1
 Update # PS points (even_rn):       862003  -->       839808
Using random seed offsets:     0 ,      4 ,  59983
  with seed                   49
 Ranmar initialization seeds         124        9248
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.444074D+04 0.444074D+04  1.00
 muF1, muF1_reference: 0.444074D+04 0.444074D+04  1.00
 muF2, muF2_reference: 0.444074D+04 0.444074D+04  1.00
 QES,  QES_reference:  0.444074D+04 0.444074D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4646816927316034E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4646816927316034E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.0160862789462002E-006           OLP:   -2.0160862789462015E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.6647555255774268E-006           OLP:   -2.6647555255774527E-006
  FINITE:
           OLP:   -2.2370510076979457E-004
           BORN:    7.5533611738193502E-004
  MOMENTA (Exyzm): 
           1   2220.3685654526798        0.0000000000000000        0.0000000000000000        2220.3685654526798        0.0000000000000000     
           2   2220.3685654526798       -0.0000000000000000       -0.0000000000000000       -2220.3685654526798        0.0000000000000000     
           3   2220.3685654526798       -2117.2248470523195       -583.26032462982141        327.41855046314845        0.0000000000000000     
           4   2220.3685654526798        2117.2248470523195        583.26032462982141       -327.41855046314845        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.0160862789462002E-006           OLP:   -2.0160862789462015E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -2.6647555255774264E-006           OLP:   -2.6647555255774527E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 Error #15 in genps_fks.f  -1.0132789611816406E-006           3
ABS integral  = 0.1158E-05  +/-  0.2285E-08  (   0.197 %)
Integral      = 0.8040E-06  +/-  0.2459E-08  (   0.306 %)
Virtual       = -.2713E-08  +/-  0.1128E-08  (  41.587 %)
Virtual ratio = -.2857E+00  +/-  0.3296E-03  (   0.115 %)
ABS virtual   = 0.5036E-06  +/-  0.9855E-09  (   0.196 %)
Born          = 0.2392E-05  +/-  0.3519E-08  (   0.147 %)
V  2          = -.2713E-08  +/-  0.1128E-08  (  41.587 %)
B  2          = 0.2392E-05  +/-  0.3519E-08  (   0.147 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1158E-05  +/-  0.2285E-08  (   0.197 %)
accumulated results Integral      = 0.8040E-06  +/-  0.2459E-08  (   0.306 %)
accumulated results Virtual       = -.2713E-08  +/-  0.1128E-08  (  41.587 %)
accumulated results Virtual ratio = -.2857E+00  +/-  0.3296E-03  (   0.115 %)
accumulated results ABS virtual   = 0.5036E-06  +/-  0.9855E-09  (   0.196 %)
accumulated results Born          = 0.2392E-05  +/-  0.3519E-08  (   0.147 %)
accumulated results V  2          = -.2713E-08  +/-  0.1128E-08  (  41.587 %)
accumulated results B  2          = 0.2392E-05  +/-  0.3519E-08  (   0.147 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                  1                                                2
  2:  0                            1                                  2                3                  4
channel    1 :     1 T   143959    11174  0.1984E-06  0.1314E-06  0.6882E+00
channel    2 :     1 T   143285    11222  0.1984E-06  0.1344E-06  0.5843E+00
channel    3 :     2 T   274993    20584  0.3802E-06  0.2647E-06  0.6826E+00
channel    4 :     2 T   277573    22555  0.3812E-06  0.2735E-06  0.7910E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1582210440751692E-006  +/-   2.2848313396514414E-009
 Final result:   8.0397282369226842E-007  +/-   2.4592982384204072E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    474042
   Stability unknown:                                          0
   Stable PS point:                                       474042
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 474042
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       474042
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.76898396    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.14899063    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.27417946    
 Time spent in Integrated_CT :    12.8486328    
 Time spent in Virtuals :    673.248840    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.4669762    
 Time spent in N1body_prefactor :   0.876469314    
 Time spent in Adding_alphas_pdf :    14.2682638    
 Time spent in Reweight_scale :    53.5416565    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.2021656    
 Time spent in Applying_cuts :    7.11778259    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    49.8107986    
 Time spent in Other_tasks :    29.7105713    
 Time spent in Total :    889.284302    
Time in seconds: 894



LOG file for integration channel /P0_dxd_emep/all_G1_20, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23023
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      862003
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6471856703035443E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          20
 Weight multiplier:   4.3478260869565216E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      862003           1
 imode is           -1
channel    1 :     1 F        0    11174  0.4567E-05  0.0000E+00  0.7609E+00
channel    2 :     1 F        0    11222  0.4528E-05  0.0000E+00  0.8606E+00
channel    3 :     2 F        0    20584  0.8729E-05  0.0000E+00  0.7393E+00
channel    4 :     2 F        0    22555  0.8818E-05  0.0000E+00  0.7654E+00
 ------- iteration           1
 Update # PS points (even_rn):       862003  -->       839808
Using random seed offsets:     0 ,      4 ,  63140
  with seed                   49
 Ranmar initialization seeds         124       12405
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.423547D+04 0.423547D+04  1.00
 muF1, muF1_reference: 0.423547D+04 0.423547D+04  1.00
 muF2, muF2_reference: 0.423547D+04 0.423547D+04  1.00
 QES,  QES_reference:  0.423547D+04 0.423547D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4980240748122817E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4980240748122817E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5705598286174451E-006           OLP:   -1.5705598286174462E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.8162862228715347E-006           OLP:   -1.8162862228715718E-006
  FINITE:
           OLP:   -1.6500260709138560E-004
           BORN:    5.8841755705217765E-004
  MOMENTA (Exyzm): 
           1   2117.7329636070494        0.0000000000000000        0.0000000000000000        2117.7329636070494        0.0000000000000000     
           2   2117.7329636070494       -0.0000000000000000       -0.0000000000000000       -2117.7329636070494        0.0000000000000000     
           3   2117.7329636070494       -1985.9035705170165       -438.86136922628083        590.23775917548369        0.0000000000000000     
           4   2117.7329636070494        1985.9035705170165        438.86136922628083       -590.23775917548369        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5705598286174451E-006           OLP:   -1.5705598286174462E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.8162862228715347E-006           OLP:   -1.8162862228715718E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.1161E-05  +/-  0.2041E-08  (   0.176 %)
Integral      = 0.8090E-06  +/-  0.2234E-08  (   0.276 %)
Virtual       = -.1149E-08  +/-  0.1139E-08  (  99.112 %)
Virtual ratio = -.2853E+00  +/-  0.3297E-03  (   0.116 %)
ABS virtual   = 0.5063E-06  +/-  0.9957E-09  (   0.197 %)
Born          = 0.2400E-05  +/-  0.3546E-08  (   0.148 %)
V  2          = -.1149E-08  +/-  0.1139E-08  (  99.112 %)
B  2          = 0.2400E-05  +/-  0.3546E-08  (   0.148 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1161E-05  +/-  0.2041E-08  (   0.176 %)
accumulated results Integral      = 0.8090E-06  +/-  0.2234E-08  (   0.276 %)
accumulated results Virtual       = -.1149E-08  +/-  0.1139E-08  (  99.112 %)
accumulated results Virtual ratio = -.2853E+00  +/-  0.3297E-03  (   0.116 %)
accumulated results ABS virtual   = 0.5063E-06  +/-  0.9957E-09  (   0.197 %)
accumulated results Born          = 0.2400E-05  +/-  0.3546E-08  (   0.148 %)
accumulated results V  2          = -.1149E-08  +/-  0.1139E-08  (  99.112 %)
accumulated results B  2          = 0.2400E-05  +/-  0.3546E-08  (   0.148 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                  1                                                2
  2:  0                            1                                  2                3                  4
channel    1 :     1 T   143839    11174  0.1984E-06  0.1311E-06  0.7231E+00
channel    2 :     1 T   143061    11222  0.1995E-06  0.1383E-06  0.8458E+00
channel    3 :     2 T   275101    20584  0.3820E-06  0.2678E-06  0.7105E+00
channel    4 :     2 T   277803    22555  0.3816E-06  0.2718E-06  0.7875E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1614441369327851E-006  +/-   2.0407040086652445E-009
 Final result:   8.0898931125165802E-007  +/-   2.2341517909235803E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    474927
   Stability unknown:                                          0
   Stable PS point:                                       474927
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 474927
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       474927
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.77492893    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.09606743    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.25513029    
 Time spent in Integrated_CT :    12.7922974    
 Time spent in Virtuals :    674.292358    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.4516907    
 Time spent in N1body_prefactor :   0.879105568    
 Time spent in Adding_alphas_pdf :    14.1443434    
 Time spent in Reweight_scale :    53.4714622    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.3013420    
 Time spent in Applying_cuts :    7.11021519    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    49.9172134    
 Time spent in Other_tasks :    29.7122192    
 Time spent in Total :    890.198364    
Time in seconds: 897



LOG file for integration channel /P0_dxd_emep/all_G1_21, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23032
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      862003
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6471856703035443E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          21
 Weight multiplier:   4.3478260869565216E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      862003           1
 imode is           -1
channel    1 :     1 F        0    11174  0.4567E-05  0.0000E+00  0.7609E+00
channel    2 :     1 F        0    11222  0.4528E-05  0.0000E+00  0.8606E+00
channel    3 :     2 F        0    20584  0.8729E-05  0.0000E+00  0.7393E+00
channel    4 :     2 F        0    22555  0.8818E-05  0.0000E+00  0.7654E+00
 ------- iteration           1
 Update # PS points (even_rn):       862003  -->       839808
Using random seed offsets:     0 ,      4 ,  66297
  with seed                   49
 Ranmar initialization seeds         124       15562
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.455105D+04 0.455105D+04  1.00
 muF1, muF1_reference: 0.455105D+04 0.455105D+04  1.00
 muF2, muF2_reference: 0.455105D+04 0.455105D+04  1.00
 QES,  QES_reference:  0.455105D+04 0.455105D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4475130966792147E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 REAL 1: keeping split order            1
 alpha_s value used for the virtuals is (for the first PS point):    7.4766866520967090E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6666496997578226E-006           OLP:   -1.6666496997578224E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.9934042292696960E-006           OLP:   -1.9934042292696396E-006
  FINITE:
           OLP:   -1.8017991254752706E-004
           BORN:    6.2441807495900088E-004
  MOMENTA (Exyzm): 
           1   2182.7505904457116        0.0000000000000000        0.0000000000000000        2182.7505904457116        0.0000000000000000     
           2   2182.7505904457116       -0.0000000000000000       -0.0000000000000000       -2182.7505904457116        0.0000000000000000     
           3   2182.7505904457116       -1401.7442687993662       -1583.1827671162507        541.33674444412509        0.0000000000000000     
           4   2182.7505904457116        1401.7442687993662        1583.1827671162507       -541.33674444412509        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6666496997578226E-006           OLP:   -1.6666496997578224E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.9934042292696960E-006           OLP:   -1.9934042292696396E-006
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.1161E-05  +/-  0.2043E-08  (   0.176 %)
Integral      = 0.8076E-06  +/-  0.2236E-08  (   0.277 %)
Virtual       = 0.1590E-09  +/-  0.1142E-08  ( 718.164 %)
Virtual ratio = -.2853E+00  +/-  0.3301E-03  (   0.116 %)
ABS virtual   = 0.5069E-06  +/-  0.9986E-09  (   0.197 %)
Born          = 0.2395E-05  +/-  0.3529E-08  (   0.147 %)
V  2          = 0.1590E-09  +/-  0.1142E-08  ( 718.164 %)
B  2          = 0.2395E-05  +/-  0.3529E-08  (   0.147 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1161E-05  +/-  0.2043E-08  (   0.176 %)
accumulated results Integral      = 0.8076E-06  +/-  0.2236E-08  (   0.277 %)
accumulated results Virtual       = 0.1590E-09  +/-  0.1142E-08  ( 718.164 %)
accumulated results Virtual ratio = -.2853E+00  +/-  0.3301E-03  (   0.116 %)
accumulated results ABS virtual   = 0.5069E-06  +/-  0.9986E-09  (   0.197 %)
accumulated results Born          = 0.2395E-05  +/-  0.3529E-08  (   0.147 %)
accumulated results V  2          = 0.1590E-09  +/-  0.1142E-08  ( 718.164 %)
accumulated results B  2          = 0.2395E-05  +/-  0.3529E-08  (   0.147 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                  1                                                2
  2:  0                            1                                  2                3                  4
channel    1 :     1 T   143940    11174  0.2004E-06  0.1332E-06  0.7336E+00
channel    2 :     1 T   142721    11222  0.1970E-06  0.1349E-06  0.8483E+00
channel    3 :     2 T   275068    20584  0.3817E-06  0.2664E-06  0.7039E+00
channel    4 :     2 T   278077    22555  0.3819E-06  0.2732E-06  0.7917E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1609142688654810E-006  +/-   2.0429096213983504E-009
 Final result:   8.0756301598741139E-007  +/-   2.2364528417041954E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    474664
   Stability unknown:                                          0
   Stable PS point:                                       474664
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 474664
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       474664
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.76017785    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.24540520    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.22860527    
 Time spent in Integrated_CT :    12.7918701    
 Time spent in Virtuals :    671.518433    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.5599709    
 Time spent in N1body_prefactor :   0.867155135    
 Time spent in Adding_alphas_pdf :    14.1133404    
 Time spent in Reweight_scale :    53.6200066    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.3879929    
 Time spent in Applying_cuts :    7.11297941    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    51.0514679    
 Time spent in Other_tasks :    29.8823242    
 Time spent in Total :    889.139709    
Time in seconds: 894



LOG file for integration channel /P0_dxd_emep/all_G1_22, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23033
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      862003
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6471856703035443E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          22
 Weight multiplier:   4.3478260869565216E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      862003           1
 imode is           -1
channel    1 :     1 F        0    11174  0.4567E-05  0.0000E+00  0.7609E+00
channel    2 :     1 F        0    11222  0.4528E-05  0.0000E+00  0.8606E+00
channel    3 :     2 F        0    20584  0.8729E-05  0.0000E+00  0.7393E+00
channel    4 :     2 F        0    22555  0.8818E-05  0.0000E+00  0.7654E+00
 ------- iteration           1
 Update # PS points (even_rn):       862003  -->       839808
Using random seed offsets:     0 ,      4 ,  69454
  with seed                   49
 Ranmar initialization seeds         124       18719
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.433790D+04 0.433790D+04  1.00
 muF1, muF1_reference: 0.433790D+04 0.433790D+04  1.00
 muF2, muF2_reference: 0.433790D+04 0.433790D+04  1.00
 QES,  QES_reference:  0.433790D+04 0.433790D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4811515818068164E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4811515818068164E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4142131043808536E-006           OLP:   -1.4142131043808532E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5348924061964838E-006           OLP:   -1.5348924061966333E-006
  FINITE:
           OLP:   -1.4593810963623702E-004
           BORN:    5.2984152839531955E-004
  MOMENTA (Exyzm): 
           1   2168.9524601566177        0.0000000000000000        0.0000000000000000        2168.9524601566177        0.0000000000000000     
           2   2168.9524601566177       -0.0000000000000000       -0.0000000000000000       -2168.9524601566177        0.0000000000000000     
           3   2168.9524601566177       -1503.5108406605070       -1387.0611505908839        721.02100590570342        0.0000000000000000     
           4   2168.9524601566177        1503.5108406605070        1387.0611505908839       -721.02100590570342        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4142131043808536E-006           OLP:   -1.4142131043808532E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -1.5348924061964840E-006           OLP:   -1.5348924061966333E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.1160E-05  +/-  0.2192E-08  (   0.189 %)
Integral      = 0.8070E-06  +/-  0.2373E-08  (   0.294 %)
Virtual       = 0.4243E-09  +/-  0.1142E-08  ( 269.204 %)
Virtual ratio = -.2853E+00  +/-  0.3297E-03  (   0.116 %)
ABS virtual   = 0.5061E-06  +/-  0.1000E-08  (   0.198 %)
Born          = 0.2395E-05  +/-  0.3540E-08  (   0.148 %)
V  2          = 0.4243E-09  +/-  0.1142E-08  ( 269.204 %)
B  2          = 0.2395E-05  +/-  0.3540E-08  (   0.148 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1160E-05  +/-  0.2192E-08  (   0.189 %)
accumulated results Integral      = 0.8070E-06  +/-  0.2373E-08  (   0.294 %)
accumulated results Virtual       = 0.4243E-09  +/-  0.1142E-08  ( 269.204 %)
accumulated results Virtual ratio = -.2853E+00  +/-  0.3297E-03  (   0.116 %)
accumulated results ABS virtual   = 0.5061E-06  +/-  0.1000E-08  (   0.198 %)
accumulated results Born          = 0.2395E-05  +/-  0.3540E-08  (   0.148 %)
accumulated results V  2          = 0.4243E-09  +/-  0.1142E-08  ( 269.204 %)
accumulated results B  2          = 0.2395E-05  +/-  0.3540E-08  (   0.148 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                  1                                                2
  2:  0                            1                                  2                3                  4
channel    1 :     1 T   143565    11174  0.1980E-06  0.1323E-06  0.7540E+00
channel    2 :     1 T   143110    11222  0.1975E-06  0.1354E-06  0.8335E+00
channel    3 :     2 T   275196    20584  0.3817E-06  0.2671E-06  0.6844E+00
channel    4 :     2 T   277932    22555  0.3823E-06  0.2721E-06  0.6953E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1595993489827927E-006  +/-   2.1923319536668183E-009
 Final result:   8.0696643406360102E-007  +/-   2.3731992324287447E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    474564
   Stability unknown:                                          0
   Stable PS point:                                       474564
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 474564
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       474564
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.74470675    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.20358086    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.27348232    
 Time spent in Integrated_CT :    12.8312378    
 Time spent in Virtuals :    671.351257    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.4745646    
 Time spent in N1body_prefactor :   0.893711925    
 Time spent in Adding_alphas_pdf :    14.2173262    
 Time spent in Reweight_scale :    53.6093140    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    20.5284157    
 Time spent in Applying_cuts :    7.11932373    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    50.0419235    
 Time spent in Other_tasks :    29.9026489    
 Time spent in Total :    888.191589    
Time in seconds: 892



LOG file for integration channel /P0_dxd_emep/all_G1_23, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23058
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      862003
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6471856703035443E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          23
 Weight multiplier:   4.3478260869565216E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      862003           1
 imode is           -1
channel    1 :     1 F        0    11174  0.4567E-05  0.0000E+00  0.7609E+00
channel    2 :     1 F        0    11222  0.4528E-05  0.0000E+00  0.8606E+00
channel    3 :     2 F        0    20584  0.8729E-05  0.0000E+00  0.7393E+00
channel    4 :     2 F        0    22555  0.8818E-05  0.0000E+00  0.7654E+00
 ------- iteration           1
 Update # PS points (even_rn):       862003  -->       839808
Using random seed offsets:     0 ,      4 ,  72611
  with seed                   49
 Ranmar initialization seeds         124       21876
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.446002D+04 0.446002D+04  1.00
 muF1, muF1_reference: 0.446002D+04 0.446002D+04  1.00
 muF2, muF2_reference: 0.446002D+04 0.446002D+04  1.00
 QES,  QES_reference:  0.446002D+04 0.446002D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4616435814008883E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 alpha_s value used for the virtuals is (for the first PS point):    7.5028790371988771E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.9985716216407322E-006           OLP:   -1.9985716216407314E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.6299939182306780E-006           OLP:   -2.6299939182308033E-006
  FINITE:
           OLP:   -2.1536511453046356E-004
           BORN:    7.4877416942140313E-004
  MOMENTA (Exyzm): 
           1   2103.2607532601974        0.0000000000000000        0.0000000000000000        2103.2607532601974        0.0000000000000000     
           2   2103.2607532601974       -0.0000000000000000       -0.0000000000000000       -2103.2607532601974        0.0000000000000000     
           3   2103.2607532601974       -1611.7360435486719       -1312.8388901388321        320.10431216990077        0.0000000000000000     
           4   2103.2607532601974        1611.7360435486719        1312.8388901388321       -320.10431216990077        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.9985716216407322E-006           OLP:   -1.9985716216407314E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.6299939182306780E-006           OLP:   -2.6299939182308033E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.1154E-05  +/-  0.2035E-08  (   0.176 %)
Integral      = 0.8033E-06  +/-  0.2227E-08  (   0.277 %)
Virtual       = -.4892E-09  +/-  0.1133E-08  ( 231.612 %)
Virtual ratio = -.2851E+00  +/-  0.3300E-03  (   0.116 %)
ABS virtual   = 0.5041E-06  +/-  0.9906E-09  (   0.197 %)
Born          = 0.2388E-05  +/-  0.3512E-08  (   0.147 %)
V  2          = -.4892E-09  +/-  0.1133E-08  ( 231.612 %)
B  2          = 0.2388E-05  +/-  0.3512E-08  (   0.147 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1154E-05  +/-  0.2035E-08  (   0.176 %)
accumulated results Integral      = 0.8033E-06  +/-  0.2227E-08  (   0.277 %)
accumulated results Virtual       = -.4892E-09  +/-  0.1133E-08  ( 231.612 %)
accumulated results Virtual ratio = -.2851E+00  +/-  0.3300E-03  (   0.116 %)
accumulated results ABS virtual   = 0.5041E-06  +/-  0.9906E-09  (   0.197 %)
accumulated results Born          = 0.2388E-05  +/-  0.3512E-08  (   0.147 %)
accumulated results V  2          = -.4892E-09  +/-  0.1133E-08  ( 231.612 %)
accumulated results B  2          = 0.2388E-05  +/-  0.3512E-08  (   0.147 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                  1                                                2
  2:  0                            1                                  2                3                  4
channel    1 :     1 T   144101    11174  0.1979E-06  0.1330E-06  0.7701E+00
channel    2 :     1 T   143028    11222  0.1965E-06  0.1346E-06  0.8257E+00
channel    3 :     2 T   274715    20584  0.3807E-06  0.2655E-06  0.6987E+00
channel    4 :     2 T   277965    22555  0.3792E-06  0.2701E-06  0.7816E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1541973739113338E-006  +/-   2.0352654309227343E-009
 Final result:   8.0332794159339711E-007  +/-   2.2271403128841143E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    473899
   Stability unknown:                                          0
   Stable PS point:                                       473899
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 473899
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       473899
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.75300121    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    8.09462070    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    7.05334902    
 Time spent in Integrated_CT :    12.5217285    
 Time spent in Virtuals :    659.488159    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    10.5540514    
 Time spent in N1body_prefactor :   0.881857872    
 Time spent in Adding_alphas_pdf :    14.0442486    
 Time spent in Reweight_scale :    54.4429436    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    19.9907112    
 Time spent in Applying_cuts :    6.92437267    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    50.1783447    
 Time spent in Other_tasks :    28.7179565    
 Time spent in Total :    874.645386    
Time in seconds: 878



LOG file for integration channel /P0_bxb_emep/all_G1_1, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23052
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           1
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,   3157
  with seed                   49
 Ranmar initialization seeds         124       12586
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.425750D+04 0.425750D+04  1.00
 muF1, muF1_reference: 0.425750D+04 0.425750D+04  1.00
 muF2, muF2_reference: 0.425750D+04 0.425750D+04  1.00
 QES,  QES_reference:  0.425750D+04 0.425750D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4943543692550560E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4943543692550560E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4906544326008461E-006           OLP:   -1.4906544326008452E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6714496129305637E-006           OLP:   -1.6714496129305929E-006
  FINITE:
           OLP:   -1.5696802803047075E-004
           BORN:    5.5848062815417861E-004
  MOMENTA (Exyzm): 
           1   2128.7502489744088        0.0000000000000000        0.0000000000000000        2128.7502489744088        0.0000000000000000     
           2   2128.7502489744088       -0.0000000000000000       -0.0000000000000000       -2128.7502489744088        0.0000000000000000     
           3   2128.7502489744088       -1960.4582457333804       -514.97200776325178        650.37290877225894        0.0000000000000000     
           4   2128.7502489744088        1960.4582457333804        514.97200776325178       -650.37290877225894        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4906544326008461E-006           OLP:   -1.4906544326008452E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -1.6714496129305635E-006           OLP:   -1.6714496129305929E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 Error #15 in genps_fks.f  -1.0728836059570312E-006           4
ABS integral  = 0.6131E-08  +/-  0.3433E-10  (   0.560 %)
Integral      = 0.3257E-08  +/-  0.3503E-10  (   1.075 %)
Virtual       = -.2646E-10  +/-  0.1674E-10  (  63.283 %)
Virtual ratio = -.2916E+00  +/-  0.3693E-03  (   0.127 %)
ABS virtual   = 0.2923E-08  +/-  0.1628E-10  (   0.557 %)
Born          = 0.1679E-07  +/-  0.7725E-10  (   0.460 %)
V  2          = -.2646E-10  +/-  0.1674E-10  (  63.283 %)
B  2          = 0.1679E-07  +/-  0.7725E-10  (   0.460 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6131E-08  +/-  0.3433E-10  (   0.560 %)
accumulated results Integral      = 0.3257E-08  +/-  0.3503E-10  (   1.075 %)
accumulated results Virtual       = -.2646E-10  +/-  0.1674E-10  (  63.283 %)
accumulated results Virtual ratio = -.2916E+00  +/-  0.3693E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2923E-08  +/-  0.1628E-10  (   0.557 %)
accumulated results Born          = 0.1679E-07  +/-  0.7725E-10  (   0.460 %)
accumulated results V  2          = -.2646E-10  +/-  0.1674E-10  (  63.283 %)
accumulated results B  2          = 0.1679E-07  +/-  0.7725E-10  (   0.460 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   481113    11605  0.1060E-08  0.4999E-09  0.8229E+00
channel    2 :     1 T    16684    11053  0.1044E-08  0.5501E-09  0.8943E+00
channel    3 :     2 T    31013    21384  0.2008E-08  0.1026E-08  0.7814E+00
channel    4 :     2 T    31059    21494  0.2019E-08  0.1181E-08  0.9473E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1306926815495413E-009  +/-   3.4333846922810611E-011
 Final result:   3.2569741697265481E-009  +/-   3.5028533895398211E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363496
   Stability unknown:                                          0
   Stable PS point:                                       363496
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363496
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363496
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.22665095    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.80758142    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.13588858    
 Time spent in Integrated_CT :    9.18670654    
 Time spent in Virtuals :    541.585327    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.05947638    
 Time spent in N1body_prefactor :   0.602994740    
 Time spent in Adding_alphas_pdf :    5.76446152    
 Time spent in Reweight_scale :    27.1024323    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8673248    
 Time spent in Applying_cuts :    5.00357342    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.6686974    
 Time spent in Other_tasks :    20.3637695    
 Time spent in Total :    677.374817    
Time in seconds: 702



LOG file for integration channel /P0_bxb_emep/all_G1_2, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23057
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           2
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,   6314
  with seed                   49
 Ranmar initialization seeds         124       15743
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.438267D+04 0.438267D+04  1.00
 muF1, muF1_reference: 0.438267D+04 0.438267D+04  1.00
 muF2, muF2_reference: 0.438267D+04 0.438267D+04  1.00
 QES,  QES_reference:  0.438267D+04 0.438267D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4739262144997792E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4739262144997792E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7098636007311910E-006           OLP:   -1.7098636007311902E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0740943542813202E-006           OLP:   -2.0740943542813859E-006
  FINITE:
           OLP:   -1.8771898204324175E-004
           BORN:    6.4060836429285465E-004
  MOMENTA (Exyzm): 
           1   2191.3331143972523        0.0000000000000000        0.0000000000000000        2191.3331143972523        0.0000000000000000     
           2   2191.3331143972523       -0.0000000000000000       -0.0000000000000000       -2191.3331143972523        0.0000000000000000     
           3   2191.3331143972523       -1636.1714239020534       -1363.9593769725391        514.29437857026130        0.0000000000000000     
           4   2191.3331143972523        1636.1714239020534        1363.9593769725391       -514.29437857026130        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7098636007311910E-006           OLP:   -1.7098636007311902E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -2.0740943542813202E-006           OLP:   -2.0740943542813859E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.6148E-08  +/-  0.3478E-10  (   0.566 %)
Integral      = 0.3296E-08  +/-  0.3547E-10  (   1.076 %)
Virtual       = -.5361E-11  +/-  0.1703E-10  ( 317.680 %)
Virtual ratio = -.2916E+00  +/-  0.3693E-03  (   0.127 %)
ABS virtual   = 0.2932E-08  +/-  0.1657E-10  (   0.565 %)
Born          = 0.1676E-07  +/-  0.7778E-10  (   0.464 %)
V  2          = -.5361E-11  +/-  0.1703E-10  ( 317.680 %)
B  2          = 0.1676E-07  +/-  0.7778E-10  (   0.464 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6148E-08  +/-  0.3478E-10  (   0.566 %)
accumulated results Integral      = 0.3296E-08  +/-  0.3547E-10  (   1.076 %)
accumulated results Virtual       = -.5361E-11  +/-  0.1703E-10  ( 317.680 %)
accumulated results Virtual ratio = -.2916E+00  +/-  0.3693E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2932E-08  +/-  0.1657E-10  (   0.565 %)
accumulated results Born          = 0.1676E-07  +/-  0.7778E-10  (   0.464 %)
accumulated results V  2          = -.5361E-11  +/-  0.1703E-10  ( 317.680 %)
accumulated results B  2          = 0.1676E-07  +/-  0.7778E-10  (   0.464 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                   2                         3                        4
channel    1 :     1 T   481114    11605  0.1058E-08  0.4976E-09  0.8126E+00
channel    2 :     1 T    16683    11053  0.1080E-08  0.5777E-09  0.8612E+00
channel    3 :     2 T    30925    21384  0.2000E-08  0.1047E-08  0.7987E+00
channel    4 :     2 T    31147    21494  0.2010E-08  0.1174E-08  0.9615E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1482085035993351E-009  +/-   3.4781821550923962E-011
 Final result:   3.2959446150179879E-009  +/-   3.5466720749589567E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363322
   Stability unknown:                                          0
   Stable PS point:                                       363322
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363322
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363322
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21034086    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.76415992    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.15197611    
 Time spent in Integrated_CT :    9.19982910    
 Time spent in Virtuals :    543.178223    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.89829063    
 Time spent in N1body_prefactor :   0.601504326    
 Time spent in Adding_alphas_pdf :    5.69480133    
 Time spent in Reweight_scale :    26.5302620    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.7159624    
 Time spent in Applying_cuts :    4.99871778    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.0461884    
 Time spent in Other_tasks :    20.4403076    
 Time spent in Total :    677.430603    
Time in seconds: 703



LOG file for integration channel /P0_bxb_emep/all_G1_3, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23035
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           3
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,   9471
  with seed                   49
 Ranmar initialization seeds         124       18900
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.432516D+04 0.432516D+04  1.00
 muF1, muF1_reference: 0.432516D+04 0.432516D+04  1.00
 muF2, muF2_reference: 0.432516D+04 0.432516D+04  1.00
 QES,  QES_reference:  0.432516D+04 0.432516D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4832245883684770E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4832245883684770E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7683684942431816E-006           OLP:   -1.7683684942431806E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1843569694096555E-006           OLP:   -2.1843569694096352E-006
  FINITE:
           OLP:   -1.9336073985037045E-004
           BORN:    6.6252749522225556E-004
  MOMENTA (Exyzm): 
           1   2162.5812051894241        0.0000000000000000        0.0000000000000000        2162.5812051894241        0.0000000000000000     
           2   2162.5812051894241       -0.0000000000000000       -0.0000000000000000       -2162.5812051894241        0.0000000000000000     
           3   2162.5812051894241       -1672.2863820847854       -1288.3100018422306        469.54559361748119        0.0000000000000000     
           4   2162.5812051894241        1672.2863820847854        1288.3100018422306       -469.54559361748119        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7683684942431816E-006           OLP:   -1.7683684942431806E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1843569694096555E-006           OLP:   -2.1843569694096352E-006
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
ABS integral  = 0.6097E-08  +/-  0.3649E-10  (   0.598 %)
Integral      = 0.3184E-08  +/-  0.3714E-10  (   1.167 %)
Virtual       = 0.6565E-11  +/-  0.1735E-10  ( 264.333 %)
Virtual ratio = -.2918E+00  +/-  0.3687E-03  (   0.126 %)
ABS virtual   = 0.2928E-08  +/-  0.1691E-10  (   0.577 %)
Born          = 0.1666E-07  +/-  0.7647E-10  (   0.459 %)
V  2          = 0.6565E-11  +/-  0.1735E-10  ( 264.333 %)
B  2          = 0.1666E-07  +/-  0.7647E-10  (   0.459 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6097E-08  +/-  0.3649E-10  (   0.598 %)
accumulated results Integral      = 0.3184E-08  +/-  0.3714E-10  (   1.167 %)
accumulated results Virtual       = 0.6565E-11  +/-  0.1735E-10  ( 264.333 %)
accumulated results Virtual ratio = -.2918E+00  +/-  0.3687E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2928E-08  +/-  0.1691E-10  (   0.577 %)
accumulated results Born          = 0.1666E-07  +/-  0.7647E-10  (   0.459 %)
accumulated results V  2          = 0.6565E-11  +/-  0.1735E-10  ( 264.333 %)
accumulated results B  2          = 0.1666E-07  +/-  0.7647E-10  (   0.459 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                   2                         3                        4
channel    1 :     1 T   481522    11605  0.1063E-08  0.5001E-09  0.8662E+00
channel    2 :     1 T    16450    11053  0.1072E-08  0.5759E-09  0.9172E+00
channel    3 :     2 T    30808    21384  0.1992E-08  0.1002E-08  0.7407E+00
channel    4 :     2 T    31088    21494  0.1970E-08  0.1106E-08  0.9212E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0969939576698797E-009  +/-   3.6488762089802169E-011
 Final result:   3.1837313720144324E-009  +/-   3.7144602476733908E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363318
   Stability unknown:                                          0
   Stable PS point:                                       363318
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363318
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363318
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.22200656    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.72549772    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.21492290    
 Time spent in Integrated_CT :    9.29675293    
 Time spent in Virtuals :    543.783264    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.96871090    
 Time spent in N1body_prefactor :   0.598617435    
 Time spent in Adding_alphas_pdf :    5.72813320    
 Time spent in Reweight_scale :    26.3065796    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.9232407    
 Time spent in Applying_cuts :    5.02047729    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.9595718    
 Time spent in Other_tasks :    20.3246460    
 Time spent in Total :    678.072449    
Time in seconds: 707



LOG file for integration channel /P0_bxb_emep/all_G1_4, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23044
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           4
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,  12628
  with seed                   49
 Ranmar initialization seeds         124       22057
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.416937D+04 0.416937D+04  1.00
 muF1, muF1_reference: 0.416937D+04 0.416937D+04  1.00
 muF2, muF2_reference: 0.416937D+04 0.416937D+04  1.00
 QES,  QES_reference:  0.416937D+04 0.416937D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5091688085817829E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5091688085817829E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8146419567008917E-006           OLP:   -1.8146419567008934E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2723829200188375E-006           OLP:   -2.2723829200188379E-006
  FINITE:
           OLP:   -1.9469378608911040E-004
           BORN:    6.7986406352075850E-004
  MOMENTA (Exyzm): 
           1   2084.6851976945381        0.0000000000000000        0.0000000000000000        2084.6851976945381        0.0000000000000000     
           2   2084.6851976945381       -0.0000000000000000       -0.0000000000000000       -2084.6851976945381        0.0000000000000000     
           3   2084.6851976945381       -875.42336634122262       -1843.7568534069326        424.39011376972985        0.0000000000000000     
           4   2084.6851976945381        875.42336634122262        1843.7568534069326       -424.39011376972985        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8146419567008917E-006           OLP:   -1.8146419567008934E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2723829200188379E-006           OLP:   -2.2723829200188379E-006
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6130E-08  +/-  0.3436E-10  (   0.561 %)
Integral      = 0.3281E-08  +/-  0.3505E-10  (   1.068 %)
Virtual       = -.1282E-10  +/-  0.1691E-10  ( 131.908 %)
Virtual ratio = -.2915E+00  +/-  0.3694E-03  (   0.127 %)
ABS virtual   = 0.2908E-08  +/-  0.1646E-10  (   0.566 %)
Born          = 0.1667E-07  +/-  0.7678E-10  (   0.461 %)
V  2          = -.1282E-10  +/-  0.1691E-10  ( 131.908 %)
B  2          = 0.1667E-07  +/-  0.7678E-10  (   0.461 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6130E-08  +/-  0.3436E-10  (   0.561 %)
accumulated results Integral      = 0.3281E-08  +/-  0.3505E-10  (   1.068 %)
accumulated results Virtual       = -.1282E-10  +/-  0.1691E-10  ( 131.908 %)
accumulated results Virtual ratio = -.2915E+00  +/-  0.3694E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2908E-08  +/-  0.1646E-10  (   0.566 %)
accumulated results Born          = 0.1667E-07  +/-  0.7678E-10  (   0.461 %)
accumulated results V  2          = -.1282E-10  +/-  0.1691E-10  ( 131.908 %)
accumulated results B  2          = 0.1667E-07  +/-  0.7678E-10  (   0.461 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                           1                   2                         3                         4
channel    1 :     1 T   481097    11605  0.1060E-08  0.4994E-09  0.8311E+00
channel    2 :     1 T    16569    11053  0.1055E-08  0.5776E-09  0.9362E+00
channel    3 :     2 T    31121    21384  0.2034E-08  0.1050E-08  0.7862E+00
channel    4 :     2 T    31081    21494  0.1981E-08  0.1154E-08  0.9368E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1301537926845747E-009  +/-   3.4364151285912268E-011
 Final result:   3.2808307405616363E-009  +/-   3.5054096105663480E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363189
   Stability unknown:                                          0
   Stable PS point:                                       363189
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363189
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363189
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.17716753    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.74063635    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    3.97308421    
 Time spent in Integrated_CT :    8.95520020    
 Time spent in Virtuals :    535.253845    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.91119957    
 Time spent in N1body_prefactor :   0.608297884    
 Time spent in Adding_alphas_pdf :    5.68998337    
 Time spent in Reweight_scale :    26.7661781    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.6135826    
 Time spent in Applying_cuts :    4.97858524    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.0188522    
 Time spent in Other_tasks :    20.1624146    
 Time spent in Total :    668.848999    
Time in seconds: 673



LOG file for integration channel /P0_bxb_emep/all_G1_5, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23054
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           5
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,  15785
  with seed                   49
 Ranmar initialization seeds         124       25214
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.425132D+04 0.425132D+04  1.00
 muF1, muF1_reference: 0.425132D+04 0.425132D+04  1.00
 muF2, muF2_reference: 0.425132D+04 0.425132D+04  1.00
 QES,  QES_reference:  0.425132D+04 0.425132D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4953811426443709E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 alpha_s value used for the virtuals is (for the first PS point):    7.4814326017531796E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4538489690225413E-006           OLP:   -1.4538489690225392E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6054735120069283E-006           OLP:   -1.6054735120069308E-006
  FINITE:
           OLP:   -1.5369393957301075E-004
           BORN:    5.4469128974738671E-004
  MOMENTA (Exyzm): 
           1   2168.0874652464936        0.0000000000000000        0.0000000000000000        2168.0874652464936        0.0000000000000000     
           2   2168.0874652464936       -0.0000000000000000       -0.0000000000000000       -2168.0874652464936        0.0000000000000000     
           3   2168.0874652464936       -1836.8766723061865       -922.08432236733483        690.10712946664137        0.0000000000000000     
           4   2168.0874652464936        1836.8766723061865        922.08432236733483       -690.10712946664137        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4538489690225413E-006           OLP:   -1.4538489690225392E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6054735120069285E-006           OLP:   -1.6054735120069308E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 Error #15 in genps_fks.f  -1.0568182915449142E-006           4
ABS integral  = 0.6093E-08  +/-  0.3374E-10  (   0.554 %)
Integral      = 0.3175E-08  +/-  0.3445E-10  (   1.085 %)
Virtual       = -.3794E-10  +/-  0.1650E-10  (  43.499 %)
Virtual ratio = -.2918E+00  +/-  0.3688E-03  (   0.126 %)
ABS virtual   = 0.2927E-08  +/-  0.1603E-10  (   0.548 %)
Born          = 0.1677E-07  +/-  0.7679E-10  (   0.458 %)
V  2          = -.3794E-10  +/-  0.1650E-10  (  43.499 %)
B  2          = 0.1677E-07  +/-  0.7679E-10  (   0.458 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6093E-08  +/-  0.3374E-10  (   0.554 %)
accumulated results Integral      = 0.3175E-08  +/-  0.3445E-10  (   1.085 %)
accumulated results Virtual       = -.3794E-10  +/-  0.1650E-10  (  43.499 %)
accumulated results Virtual ratio = -.2918E+00  +/-  0.3688E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2927E-08  +/-  0.1603E-10  (   0.548 %)
accumulated results Born          = 0.1677E-07  +/-  0.7679E-10  (   0.458 %)
accumulated results V  2          = -.3794E-10  +/-  0.1650E-10  (  43.499 %)
accumulated results B  2          = 0.1677E-07  +/-  0.7679E-10  (   0.458 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                           1                   2                         3                         4
channel    1 :     1 T   481024    11605  0.1057E-08  0.4970E-09  0.8824E+00
channel    2 :     1 T    16847    11053  0.1046E-08  0.5172E-09  0.9175E+00
channel    3 :     2 T    31059    21384  0.2021E-08  0.1032E-08  0.7872E+00
channel    4 :     2 T    30943    21494  0.1969E-08  0.1129E-08  0.9329E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0926952806189912E-009  +/-   3.3742724231187385E-011
 Final result:   3.1749103640241353E-009  +/-   3.4450976238811873E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363537
   Stability unknown:                                          0
   Stable PS point:                                       363537
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363537
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363537
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.17789865    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.70895362    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    3.99480200    
 Time spent in Integrated_CT :    9.04162598    
 Time spent in Virtuals :    532.091919    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.85343361    
 Time spent in N1body_prefactor :   0.598582268    
 Time spent in Adding_alphas_pdf :    5.59266424    
 Time spent in Reweight_scale :    26.6186218    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8105125    
 Time spent in Applying_cuts :    4.90036869    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.6910133    
 Time spent in Other_tasks :    20.0202026    
 Time spent in Total :    665.100586    
Time in seconds: 669



LOG file for integration channel /P0_bxb_emep/all_G1_6, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23064
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           6
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,  18942
  with seed                   49
 Ranmar initialization seeds         124       28371
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.419341D+04 0.419341D+04  1.00
 muF1, muF1_reference: 0.419341D+04 0.419341D+04  1.00
 muF2, muF2_reference: 0.419341D+04 0.419341D+04  1.00
 QES,  QES_reference:  0.419341D+04 0.419341D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5050920353471870E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5050920353471856E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7440811983701453E-006           OLP:   -1.7440811983701455E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1383860227416337E-006           OLP:   -2.1383860227416549E-006
  FINITE:
           OLP:   -1.8710886304734758E-004
           BORN:    6.5342814666856440E-004
  MOMENTA (Exyzm): 
           1   2096.7028566190020        0.0000000000000000        0.0000000000000000        2096.7028566190020        0.0000000000000000     
           2   2096.7028566190020       -0.0000000000000000       -0.0000000000000000       -2096.7028566190020        0.0000000000000000     
           3   2096.7028566190020       -1731.5886097983073       -1084.6334438956321        470.46152632723329        0.0000000000000000     
           4   2096.7028566190020        1731.5886097983073        1084.6334438956321       -470.46152632723329        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7440811983701453E-006           OLP:   -1.7440811983701455E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1383860227416341E-006           OLP:   -2.1383860227416549E-006
 REAL 3: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
ABS integral  = 0.6156E-08  +/-  0.3489E-10  (   0.567 %)
Integral      = 0.3299E-08  +/-  0.3558E-10  (   1.078 %)
Virtual       = 0.1991E-10  +/-  0.1736E-10  (  87.209 %)
Virtual ratio = -.2916E+00  +/-  0.3691E-03  (   0.127 %)
ABS virtual   = 0.2941E-08  +/-  0.1691E-10  (   0.575 %)
Born          = 0.1671E-07  +/-  0.7700E-10  (   0.461 %)
V  2          = 0.1991E-10  +/-  0.1736E-10  (  87.209 %)
B  2          = 0.1671E-07  +/-  0.7700E-10  (   0.461 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6156E-08  +/-  0.3489E-10  (   0.567 %)
accumulated results Integral      = 0.3299E-08  +/-  0.3558E-10  (   1.078 %)
accumulated results Virtual       = 0.1991E-10  +/-  0.1736E-10  (  87.209 %)
accumulated results Virtual ratio = -.2916E+00  +/-  0.3691E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2941E-08  +/-  0.1691E-10  (   0.575 %)
accumulated results Born          = 0.1671E-07  +/-  0.7700E-10  (   0.461 %)
accumulated results V  2          = 0.1991E-10  +/-  0.1736E-10  (  87.209 %)
accumulated results B  2          = 0.1671E-07  +/-  0.7700E-10  (   0.461 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   480908    11605  0.1058E-08  0.4982E-09  0.8614E+00
channel    2 :     1 T    16577    11053  0.1078E-08  0.5861E-09  0.8907E+00
channel    3 :     2 T    31069    21384  0.2008E-08  0.1023E-08  0.8019E+00
channel    4 :     2 T    31319    21494  0.2013E-08  0.1192E-08  0.9754E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1564880490377233E-009  +/-   3.4893736750255588E-011
 Final result:   3.2994104616324462E-009  +/-   3.5578465003346185E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363244
   Stability unknown:                                          0
   Stable PS point:                                       363244
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363244
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363244
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.22306156    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.77509451    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.20628786    
 Time spent in Integrated_CT :    9.31890869    
 Time spent in Virtuals :    542.848022    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.91033936    
 Time spent in N1body_prefactor :   0.603602529    
 Time spent in Adding_alphas_pdf :    5.69119501    
 Time spent in Reweight_scale :    26.3656368    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.0846157    
 Time spent in Applying_cuts :    5.09920025    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.2844772    
 Time spent in Other_tasks :    20.7453003    
 Time spent in Total :    678.155762    
Time in seconds: 708



LOG file for integration channel /P0_bxb_emep/all_G1_7, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23055
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           7
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,  22099
  with seed                   49
 Ranmar initialization seeds         124        1447
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.439814D+04 0.439814D+04  1.00
 muF1, muF1_reference: 0.439814D+04 0.439814D+04  1.00
 muF2, muF2_reference: 0.439814D+04 0.439814D+04  1.00
 QES,  QES_reference:  0.439814D+04 0.439814D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4714483004831994E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4714483004831980E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.2682857465297498E-006           OLP:   -1.2682857465297494E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.2791733827982248E-006           OLP:   -1.2791733827982546E-006
  FINITE:
           OLP:   -1.2853613593550068E-004
           BORN:    4.7516916389876110E-004
  MOMENTA (Exyzm): 
           1   2199.0711813097018        0.0000000000000000        0.0000000000000000        2199.0711813097018        0.0000000000000000     
           2   2199.0711813097018       -0.0000000000000000       -0.0000000000000000       -2199.0711813097018        0.0000000000000000     
           3   2199.0711813097018       -1653.0932009415831       -1172.5858789439860        853.36937252793291        0.0000000000000000     
           4   2199.0711813097018        1653.0932009415831        1172.5858789439860       -853.36937252793291        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.2682857465297498E-006           OLP:   -1.2682857465297494E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.2791733827982252E-006           OLP:   -1.2791733827982546E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 Error #15 in genps_fks.f  -1.1511147022247314E-006           4
ABS integral  = 0.6127E-08  +/-  0.4946E-10  (   0.807 %)
Integral      = 0.3262E-08  +/-  0.4994E-10  (   1.531 %)
Virtual       = -.1449E-10  +/-  0.1703E-10  ( 117.474 %)
Virtual ratio = -.2918E+00  +/-  0.3689E-03  (   0.126 %)
ABS virtual   = 0.2917E-08  +/-  0.1658E-10  (   0.568 %)
Born          = 0.1671E-07  +/-  0.7671E-10  (   0.459 %)
V  2          = -.1449E-10  +/-  0.1703E-10  ( 117.474 %)
B  2          = 0.1671E-07  +/-  0.7671E-10  (   0.459 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6127E-08  +/-  0.4946E-10  (   0.807 %)
accumulated results Integral      = 0.3262E-08  +/-  0.4994E-10  (   1.531 %)
accumulated results Virtual       = -.1449E-10  +/-  0.1703E-10  ( 117.474 %)
accumulated results Virtual ratio = -.2918E+00  +/-  0.3689E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2917E-08  +/-  0.1658E-10  (   0.568 %)
accumulated results Born          = 0.1671E-07  +/-  0.7671E-10  (   0.459 %)
accumulated results V  2          = -.1449E-10  +/-  0.1703E-10  ( 117.474 %)
accumulated results B  2          = 0.1671E-07  +/-  0.7671E-10  (   0.459 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   481205    11605  0.1091E-08  0.5259E-09  0.2080E+00
channel    2 :     1 T    16714    11053  0.1060E-08  0.5743E-09  0.9222E+00
channel    3 :     2 T    30957    21384  0.2007E-08  0.1045E-08  0.8066E+00
channel    4 :     2 T    30996    21494  0.1969E-08  0.1117E-08  0.9619E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1265083859690958E-009  +/-   4.9456387806363958E-011
 Final result:   3.2618753706630988E-009  +/-   4.9939671244691510E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    362886
   Stability unknown:                                          0
   Stable PS point:                                       362886
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 362886
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       362886
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21518719    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.76837587    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.10895252    
 Time spent in Integrated_CT :    9.15142822    
 Time spent in Virtuals :    545.408081    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.90351200    
 Time spent in N1body_prefactor :   0.594419539    
 Time spent in Adding_alphas_pdf :    5.75147295    
 Time spent in Reweight_scale :    26.2897110    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.9613333    
 Time spent in Applying_cuts :    4.96980381    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.9301109    
 Time spent in Other_tasks :    20.4348145    
 Time spent in Total :    679.487183    
Time in seconds: 710



LOG file for integration channel /P0_bxb_emep/all_G1_8, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23056
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           8
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,  25256
  with seed                   49
 Ranmar initialization seeds         124        4604
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.431534D+04 0.431534D+04  1.00
 muF1, muF1_reference: 0.431534D+04 0.431534D+04  1.00
 muF2, muF2_reference: 0.431534D+04 0.431534D+04  1.00
 QES,  QES_reference:  0.431534D+04 0.431534D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4848271811033498E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4848271811033498E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4481328154063239E-006           OLP:   -1.4481328154063241E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5952573360993938E-006           OLP:   -1.5952573360996892E-006
  FINITE:
           OLP:   -1.5249290265558331E-004
           BORN:    5.4254970616342962E-004
  MOMENTA (Exyzm): 
           1   2157.6708867794810        0.0000000000000000        0.0000000000000000        2157.6708867794810        0.0000000000000000     
           2   2157.6708867794810       -0.0000000000000000       -0.0000000000000000       -2157.6708867794810        0.0000000000000000     
           3   2157.6708867794810       -1530.3605925545330       -1354.9388924173254        691.14449301633158        0.0000000000000000     
           4   2157.6708867794810        1530.3605925545330        1354.9388924173254       -691.14449301633158        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4481328154063239E-006           OLP:   -1.4481328154063241E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5952573360993938E-006           OLP:   -1.5952573360996892E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6148E-08  +/-  0.3821E-10  (   0.621 %)
Integral      = 0.3211E-08  +/-  0.3885E-10  (   1.210 %)
Virtual       = -.8077E-11  +/-  0.1731E-10  ( 214.292 %)
Virtual ratio = -.2911E+00  +/-  0.3695E-03  (   0.127 %)
ABS virtual   = 0.2936E-08  +/-  0.1686E-10  (   0.574 %)
Born          = 0.1680E-07  +/-  0.7737E-10  (   0.461 %)
V  2          = -.8077E-11  +/-  0.1731E-10  ( 214.292 %)
B  2          = 0.1680E-07  +/-  0.7737E-10  (   0.461 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6148E-08  +/-  0.3821E-10  (   0.621 %)
accumulated results Integral      = 0.3211E-08  +/-  0.3885E-10  (   1.210 %)
accumulated results Virtual       = -.8077E-11  +/-  0.1731E-10  ( 214.292 %)
accumulated results Virtual ratio = -.2911E+00  +/-  0.3695E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2936E-08  +/-  0.1686E-10  (   0.574 %)
accumulated results Born          = 0.1680E-07  +/-  0.7737E-10  (   0.461 %)
accumulated results V  2          = -.8077E-11  +/-  0.1731E-10  ( 214.292 %)
accumulated results B  2          = 0.1680E-07  +/-  0.7737E-10  (   0.461 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                         3                        4
channel    1 :     1 T   480916    11605  0.1063E-08  0.5023E-09  0.8086E+00
channel    2 :     1 T    16655    11053  0.1087E-08  0.5945E-09  0.9284E+00
channel    3 :     2 T    31083    21384  0.1990E-08  0.9702E-09  0.6872E+00
channel    4 :     2 T    31218    21494  0.2008E-08  0.1144E-08  0.8705E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1482698356407152E-009  +/-   3.8211124245088832E-011
 Final result:   3.2109270239221279E-009  +/-   3.8848328327535429E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363461
   Stability unknown:                                          0
   Stable PS point:                                       363461
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363461
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363461
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.20131707    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.78942299    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.14886093    
 Time spent in Integrated_CT :    9.18023682    
 Time spent in Virtuals :    546.445557    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.84832954    
 Time spent in N1body_prefactor :   0.598470449    
 Time spent in Adding_alphas_pdf :    5.70346069    
 Time spent in Reweight_scale :    26.3269920    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.7818480    
 Time spent in Applying_cuts :    4.96704483    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.8908615    
 Time spent in Other_tasks :    20.3380127    
 Time spent in Total :    680.220398    
Time in seconds: 711



LOG file for integration channel /P0_bxb_emep/all_G1_9, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23046
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           9
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,  28413
  with seed                   49
 Ranmar initialization seeds         124        7761
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.439685D+04 0.439685D+04  1.00
 muF1, muF1_reference: 0.439685D+04 0.439685D+04  1.00
 muF2, muF2_reference: 0.439685D+04 0.439685D+04  1.00
 QES,  QES_reference:  0.439685D+04 0.439685D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4716554194038581E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4716554194038581E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5820442544237421E-006           OLP:   -1.5820442544237427E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.8373303189332165E-006           OLP:   -1.8373303189333552E-006
  FINITE:
           OLP:   -1.7195170598483200E-004
           BORN:    5.9272025068661050E-004
  MOMENTA (Exyzm): 
           1   2198.4231536074594        0.0000000000000000        0.0000000000000000        2198.4231536074594        0.0000000000000000     
           2   2198.4231536074594       -0.0000000000000000       -0.0000000000000000       -2198.4231536074594        0.0000000000000000     
           3   2198.4231536074594       -1224.9660586230987       -1722.5536462802520        604.42654907388589        0.0000000000000000     
           4   2198.4231536074594        1224.9660586230987        1722.5536462802520       -604.42654907388589        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5820442544237421E-006           OLP:   -1.5820442544237427E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.8373303189332165E-006           OLP:   -1.8373303189333552E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6102E-08  +/-  0.3423E-10  (   0.561 %)
Integral      = 0.3212E-08  +/-  0.3493E-10  (   1.087 %)
Virtual       = -.3700E-10  +/-  0.1668E-10  (  45.076 %)
Virtual ratio = -.2911E+00  +/-  0.3691E-03  (   0.127 %)
ABS virtual   = 0.2920E-08  +/-  0.1622E-10  (   0.555 %)
Born          = 0.1675E-07  +/-  0.7656E-10  (   0.457 %)
V  2          = -.3700E-10  +/-  0.1668E-10  (  45.076 %)
B  2          = 0.1675E-07  +/-  0.7656E-10  (   0.457 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6102E-08  +/-  0.3423E-10  (   0.561 %)
accumulated results Integral      = 0.3212E-08  +/-  0.3493E-10  (   1.087 %)
accumulated results Virtual       = -.3700E-10  +/-  0.1668E-10  (  45.076 %)
accumulated results Virtual ratio = -.2911E+00  +/-  0.3691E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2920E-08  +/-  0.1622E-10  (   0.555 %)
accumulated results Born          = 0.1675E-07  +/-  0.7656E-10  (   0.457 %)
accumulated results V  2          = -.3700E-10  +/-  0.1668E-10  (  45.076 %)
accumulated results B  2          = 0.1675E-07  +/-  0.7656E-10  (   0.457 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   480926    11605  0.1058E-08  0.5006E-09  0.8834E+00
channel    2 :     1 T    16721    11053  0.1051E-08  0.5502E-09  0.8891E+00
channel    3 :     2 T    31026    21384  0.1982E-08  0.1013E-08  0.8019E+00
channel    4 :     2 T    31201    21494  0.2011E-08  0.1148E-08  0.9255E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1018278739476806E-009  +/-   3.4231021941778036E-011
 Final result:   3.2118482448098739E-009  +/-   3.4926189808628825E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363541
   Stability unknown:                                          0
   Stable PS point:                                       363541
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363541
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363541
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.22363627    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.74100733    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.19576359    
 Time spent in Integrated_CT :    9.18261719    
 Time spent in Virtuals :    545.396790    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.83118963    
 Time spent in N1body_prefactor :   0.616758943    
 Time spent in Adding_alphas_pdf :    5.66323709    
 Time spent in Reweight_scale :    26.3491516    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8883991    
 Time spent in Applying_cuts :    5.12118530    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.2818031    
 Time spent in Other_tasks :    20.8244019    
 Time spent in Total :    680.315918    
Time in seconds: 710



LOG file for integration channel /P0_bxb_emep/all_G1_10, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23051
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          10
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,  31570
  with seed                   49
 Ranmar initialization seeds         124       10918
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.418857D+04 0.418857D+04  1.00
 muF1, muF1_reference: 0.418857D+04 0.418857D+04  1.00
 muF2, muF2_reference: 0.418857D+04 0.418857D+04  1.00
 QES,  QES_reference:  0.418857D+04 0.418857D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5059097720407891E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5059097720407891E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7578706615580297E-006           OLP:   -1.7578706615580307E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1644344238981916E-006           OLP:   -2.1644344238981777E-006
  FINITE:
           OLP:   -1.8860947514638319E-004
           BORN:    6.5859443329721102E-004
  MOMENTA (Exyzm): 
           1   2094.2857400690027        0.0000000000000000        0.0000000000000000        2094.2857400690027        0.0000000000000000     
           2   2094.2857400690027       -0.0000000000000000       -0.0000000000000000       -2094.2857400690027        0.0000000000000000     
           3   2094.2857400690027       -1959.6006747098097       -577.24135578304777        461.29207006730417        0.0000000000000000     
           4   2094.2857400690027        1959.6006747098097        577.24135578304777       -461.29207006730417        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7578706615580297E-006           OLP:   -1.7578706615580307E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1644344238981912E-006           OLP:   -2.1644344238981777E-006
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 Error #15 in genps_fks.f  -1.0058283805847168E-006           3
ABS integral  = 0.6141E-08  +/-  0.3603E-10  (   0.587 %)
Integral      = 0.3268E-08  +/-  0.3669E-10  (   1.123 %)
Virtual       = -.8855E-11  +/-  0.1735E-10  ( 195.986 %)
Virtual ratio = -.2915E+00  +/-  0.3691E-03  (   0.127 %)
ABS virtual   = 0.2938E-08  +/-  0.1690E-10  (   0.575 %)
Born          = 0.1683E-07  +/-  0.7828E-10  (   0.465 %)
V  2          = -.8855E-11  +/-  0.1735E-10  ( 195.986 %)
B  2          = 0.1683E-07  +/-  0.7828E-10  (   0.465 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6141E-08  +/-  0.3603E-10  (   0.587 %)
accumulated results Integral      = 0.3268E-08  +/-  0.3669E-10  (   1.123 %)
accumulated results Virtual       = -.8855E-11  +/-  0.1735E-10  ( 195.986 %)
accumulated results Virtual ratio = -.2915E+00  +/-  0.3691E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2938E-08  +/-  0.1690E-10  (   0.575 %)
accumulated results Born          = 0.1683E-07  +/-  0.7828E-10  (   0.465 %)
accumulated results V  2          = -.8855E-11  +/-  0.1735E-10  ( 195.986 %)
accumulated results B  2          = 0.1683E-07  +/-  0.7828E-10  (   0.465 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   480999    11605  0.1055E-08  0.4965E-09  0.8944E+00
channel    2 :     1 T    16856    11053  0.1085E-08  0.5857E-09  0.9294E+00
channel    3 :     2 T    30937    21384  0.1995E-08  0.1039E-08  0.7715E+00
channel    4 :     2 T    31079    21494  0.2006E-08  0.1146E-08  0.9056E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1414682048335726E-009  +/-   3.6025625235508303E-011
 Final result:   3.2677544597294065E-009  +/-   3.6689799369979669E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363341
   Stability unknown:                                          0
   Stable PS point:                                       363341
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363341
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363341
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.20505953    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.75280786    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.02873755    
 Time spent in Integrated_CT :    9.32727051    
 Time spent in Virtuals :    536.482117    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.78075743    
 Time spent in N1body_prefactor :   0.593544483    
 Time spent in Adding_alphas_pdf :    5.63498116    
 Time spent in Reweight_scale :    26.8229141    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.5115891    
 Time spent in Applying_cuts :    4.87967587    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.0258141    
 Time spent in Other_tasks :    20.0979614    
 Time spent in Total :    670.143372    
Time in seconds: 677



LOG file for integration channel /P0_bxb_emep/all_G1_11, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       23066
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          11
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,  34727
  with seed                   49
 Ranmar initialization seeds         124       14075
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.442518D+04 0.442518D+04  1.00
 muF1, muF1_reference: 0.442518D+04 0.442518D+04  1.00
 muF2, muF2_reference: 0.442518D+04 0.442518D+04  1.00
 QES,  QES_reference:  0.442518D+04 0.442518D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4671432659409856E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4671432659409856E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8557264006411825E-006           OLP:   -1.8557264006411831E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.3513062040536222E-006           OLP:   -2.3513062040536569E-006
  FINITE:
           OLP:   -2.0625651748823346E-004
           BORN:    6.9525654185599898E-004
  MOMENTA (Exyzm): 
           1   2212.5924422511416        0.0000000000000000        0.0000000000000000        2212.5924422511416        0.0000000000000000     
           2   2212.5924422511416       -0.0000000000000000       -0.0000000000000000       -2212.5924422511416        0.0000000000000000     
           3   2212.5924422511416       -1273.6396998453536       -1758.8247709936361        424.19648209749738        0.0000000000000000     
           4   2212.5924422511416        1273.6396998453536        1758.8247709936361       -424.19648209749738        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8557264006411825E-006           OLP:   -1.8557264006411831E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.3513062040536222E-006           OLP:   -2.3513062040536569E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6040E-08  +/-  0.3348E-10  (   0.554 %)
Integral      = 0.3188E-08  +/-  0.3417E-10  (   1.072 %)
Virtual       = -.2409E-10  +/-  0.1675E-10  (  69.551 %)
Virtual ratio = -.2918E+00  +/-  0.3694E-03  (   0.127 %)
ABS virtual   = 0.2916E-08  +/-  0.1629E-10  (   0.559 %)
Born          = 0.1664E-07  +/-  0.7715E-10  (   0.464 %)
V  2          = -.2409E-10  +/-  0.1675E-10  (  69.551 %)
B  2          = 0.1664E-07  +/-  0.7715E-10  (   0.464 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6040E-08  +/-  0.3348E-10  (   0.554 %)
accumulated results Integral      = 0.3188E-08  +/-  0.3417E-10  (   1.072 %)
accumulated results Virtual       = -.2409E-10  +/-  0.1675E-10  (  69.551 %)
accumulated results Virtual ratio = -.2918E+00  +/-  0.3694E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2916E-08  +/-  0.1629E-10  (   0.559 %)
accumulated results Born          = 0.1664E-07  +/-  0.7715E-10  (   0.464 %)
accumulated results V  2          = -.2409E-10  +/-  0.1675E-10  (  69.551 %)
accumulated results B  2          = 0.1664E-07  +/-  0.7715E-10  (   0.464 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                         3                         4
channel    1 :     1 T   481594    11605  0.1059E-08  0.4976E-09  0.8764E+00
channel    2 :     1 T    16745    11053  0.1046E-08  0.5432E-09  0.9579E+00
channel    3 :     2 T    30918    21384  0.1992E-08  0.1032E-08  0.7988E+00
channel    4 :     2 T    30609    21494  0.1943E-08  0.1115E-08  0.9514E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0401809582000428E-009  +/-   3.3476140114440126E-011
 Final result:   3.1876017745319371E-009  +/-   3.4171157817517552E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363565
   Stability unknown:                                          0
   Stable PS point:                                       363565
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363565
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363565
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.20428860    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.78562903    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.11633778    
 Time spent in Integrated_CT :    9.15551758    
 Time spent in Virtuals :    543.974121    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.94507599    
 Time spent in N1body_prefactor :   0.597918451    
 Time spent in Adding_alphas_pdf :    6.06404829    
 Time spent in Reweight_scale :    27.5252075    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8130074    
 Time spent in Applying_cuts :    4.98161125    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.9562607    
 Time spent in Other_tasks :    20.1972656    
 Time spent in Total :    679.316223    
Time in seconds: 710



LOG file for integration channel /P0_bxb_emep/all_G1_12, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       22983
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          12
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,  37884
  with seed                   49
 Ranmar initialization seeds         124       17232
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.423352D+04 0.423352D+04  1.00
 muF1, muF1_reference: 0.423352D+04 0.423352D+04  1.00
 muF2, muF2_reference: 0.423352D+04 0.423352D+04  1.00
 QES,  QES_reference:  0.423352D+04 0.423352D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4983494403536771E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4983494403536771E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6443835253053775E-006           OLP:   -1.6443835253053792E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.9520450976476513E-006           OLP:   -1.9520450976477681E-006
  FINITE:
           OLP:   -1.7605470365717593E-004
           BORN:    6.1607594896196782E-004
  MOMENTA (Exyzm): 
           1   2116.7594018934101        0.0000000000000000        0.0000000000000000        2116.7594018934101        0.0000000000000000     
           2   2116.7594018934101       -0.0000000000000000       -0.0000000000000000       -2116.7594018934101        0.0000000000000000     
           3   2116.7594018934101       -1001.6755628954311       -1784.9272053967795        539.76967647017011        0.0000000000000000     
           4   2116.7594018934101        1001.6755628954311        1784.9272053967795       -539.76967647017011        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6443835253053775E-006           OLP:   -1.6443835253053792E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.9520450976476513E-006           OLP:   -1.9520450976477681E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.6187E-08  +/-  0.5202E-10  (   0.841 %)
Integral      = 0.3205E-08  +/-  0.5250E-10  (   1.638 %)
Virtual       = 0.8389E-11  +/-  0.1695E-10  ( 202.045 %)
Virtual ratio = -.2915E+00  +/-  0.3696E-03  (   0.127 %)
ABS virtual   = 0.2949E-08  +/-  0.1649E-10  (   0.559 %)
Born          = 0.1675E-07  +/-  0.7716E-10  (   0.461 %)
V  2          = 0.8389E-11  +/-  0.1695E-10  ( 202.045 %)
B  2          = 0.1675E-07  +/-  0.7716E-10  (   0.461 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6187E-08  +/-  0.5202E-10  (   0.841 %)
accumulated results Integral      = 0.3205E-08  +/-  0.5250E-10  (   1.638 %)
accumulated results Virtual       = 0.8389E-11  +/-  0.1695E-10  ( 202.045 %)
accumulated results Virtual ratio = -.2915E+00  +/-  0.3696E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2949E-08  +/-  0.1649E-10  (   0.559 %)
accumulated results Born          = 0.1675E-07  +/-  0.7716E-10  (   0.461 %)
accumulated results V  2          = 0.8389E-11  +/-  0.1695E-10  ( 202.045 %)
accumulated results B  2          = 0.1675E-07  +/-  0.7716E-10  (   0.461 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                             1                  2                         3                        4
channel    1 :     1 T   480805    11605  0.1059E-08  0.4970E-09  0.8604E+00
channel    2 :     1 T    16743    11053  0.1053E-08  0.5497E-09  0.9275E+00
channel    3 :     2 T    31069    21384  0.2006E-08  0.1044E-08  0.8154E+00
channel    4 :     2 T    31253    21494  0.2069E-08  0.1114E-08  0.4663E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1872236691714422E-009  +/-   5.2024523104201795E-011
 Final result:   3.2049156820775327E-009  +/-   5.2503149877840787E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363663
   Stability unknown:                                          0
   Stable PS point:                                       363663
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363663
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363663
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21794283    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.73429728    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.18716621    
 Time spent in Integrated_CT :    9.15972900    
 Time spent in Virtuals :    544.937805    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.04391289    
 Time spent in N1body_prefactor :   0.588631451    
 Time spent in Adding_alphas_pdf :    5.90830135    
 Time spent in Reweight_scale :    26.3615952    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.9873972    
 Time spent in Applying_cuts :    5.07699251    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.8477097    
 Time spent in Other_tasks :    20.2277222    
 Time spent in Total :    679.279175    
Time in seconds: 705



LOG file for integration channel /P0_bxb_emep/all_G1_13, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       22980
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          13
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,  41041
  with seed                   49
 Ranmar initialization seeds         124       20389
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.421095D+04 0.421095D+04  1.00
 muF1, muF1_reference: 0.421095D+04 0.421095D+04  1.00
 muF2, muF2_reference: 0.421095D+04 0.421095D+04  1.00
 QES,  QES_reference:  0.421095D+04 0.421095D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5021335451122037E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5021335451122037E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5556062454306469E-006           OLP:   -1.5556062454306486E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7890077789455028E-006           OLP:   -1.7890077789455657E-006
  FINITE:
           OLP:   -1.6437815142416126E-004
           BORN:    5.8281512744228631E-004
  MOMENTA (Exyzm): 
           1   2105.4753749669753        0.0000000000000000        0.0000000000000000        2105.4753749669753        0.0000000000000000     
           2   2105.4753749669753       -0.0000000000000000       -0.0000000000000000       -2105.4753749669753        0.0000000000000000     
           3   2105.4753749669753       -1969.4092886887022       -444.76255890743016        597.19333085115773        0.0000000000000000     
           4   2105.4753749669753        1969.4092886887022        444.76255890743016       -597.19333085115773        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5556062454306469E-006           OLP:   -1.5556062454306486E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -1.7890077789455028E-006           OLP:   -1.7890077789455657E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 Error #15 in genps_fks.f  -1.0132789611816406E-006           4
ABS integral  = 0.6155E-08  +/-  0.3553E-10  (   0.577 %)
Integral      = 0.3285E-08  +/-  0.3620E-10  (   1.102 %)
Virtual       = 0.8615E-11  +/-  0.1733E-10  ( 201.102 %)
Virtual ratio = -.2908E+00  +/-  0.3695E-03  (   0.127 %)
ABS virtual   = 0.2951E-08  +/-  0.1687E-10  (   0.572 %)
Born          = 0.1681E-07  +/-  0.7743E-10  (   0.461 %)
V  2          = 0.8615E-11  +/-  0.1733E-10  ( 201.102 %)
B  2          = 0.1681E-07  +/-  0.7743E-10  (   0.461 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6155E-08  +/-  0.3553E-10  (   0.577 %)
accumulated results Integral      = 0.3285E-08  +/-  0.3620E-10  (   1.102 %)
accumulated results Virtual       = 0.8615E-11  +/-  0.1733E-10  ( 201.102 %)
accumulated results Virtual ratio = -.2908E+00  +/-  0.3695E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2951E-08  +/-  0.1687E-10  (   0.572 %)
accumulated results Born          = 0.1681E-07  +/-  0.7743E-10  (   0.461 %)
accumulated results V  2          = 0.8615E-11  +/-  0.1733E-10  ( 201.102 %)
accumulated results B  2          = 0.1681E-07  +/-  0.7743E-10  (   0.461 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                           1                   2                         3                         4
channel    1 :     1 T   481058    11605  0.1062E-08  0.4965E-09  0.8291E+00
channel    2 :     1 T    16899    11053  0.1087E-08  0.5686E-09  0.9506E+00
channel    3 :     2 T    31073    21384  0.1979E-08  0.1030E-08  0.8051E+00
channel    4 :     2 T    30844    21494  0.2027E-08  0.1190E-08  0.8923E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1550354410695100E-009  +/-   3.5529184462637767E-011
 Final result:   3.2849435793640729E-009  +/-   3.6203804368127678E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363302
   Stability unknown:                                          0
   Stable PS point:                                       363302
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363302
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363302
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.20043683    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.71601272    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.00723553    
 Time spent in Integrated_CT :    9.11846924    
 Time spent in Virtuals :    534.888367    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.88972521    
 Time spent in N1body_prefactor :   0.593362987    
 Time spent in Adding_alphas_pdf :    5.70685101    
 Time spent in Reweight_scale :    26.7198257    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.4791012    
 Time spent in Applying_cuts :    4.84320307    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.7135010    
 Time spent in Other_tasks :    19.9170532    
 Time spent in Total :    667.793213    
Time in seconds: 672



LOG file for integration channel /P0_bxb_emep/all_G1_14, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       22978
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          14
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,  44198
  with seed                   49
 Ranmar initialization seeds         124       23546
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.429291D+04 0.429291D+04  1.00
 muF1, muF1_reference: 0.429291D+04 0.429291D+04  1.00
 muF2, muF2_reference: 0.429291D+04 0.429291D+04  1.00
 QES,  QES_reference:  0.429291D+04 0.429291D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4885043472138119E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4885043472138119E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8570917470919033E-006           OLP:   -1.8570917470919024E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.3538934842766550E-006           OLP:   -2.3538934842766606E-006
  FINITE:
           OLP:   -2.0288879869713490E-004
           BORN:    6.9576807526493018E-004
  MOMENTA (Exyzm): 
           1   2146.4538156745953        0.0000000000000000        0.0000000000000000        2146.4538156745953        0.0000000000000000     
           2   2146.4538156745953       -0.0000000000000000       -0.0000000000000000       -2146.4538156745953        0.0000000000000000     
           3   2146.4538156745953       -1968.0444788282505       -751.91301698329517        410.72098445142592        0.0000000000000000     
           4   2146.4538156745953        1968.0444788282505        751.91301698329517       -410.72098445142592        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8570917470919033E-006           OLP:   -1.8570917470919024E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.3538934842766546E-006           OLP:   -2.3538934842766606E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.6173E-08  +/-  0.7443E-10  (   1.206 %)
Integral      = 0.3154E-08  +/-  0.7476E-10  (   2.370 %)
Virtual       = -.2052E-10  +/-  0.1669E-10  (  81.323 %)
Virtual ratio = -.2911E+00  +/-  0.3696E-03  (   0.127 %)
ABS virtual   = 0.2934E-08  +/-  0.1622E-10  (   0.553 %)
Born          = 0.1678E-07  +/-  0.7631E-10  (   0.455 %)
V  2          = -.2052E-10  +/-  0.1669E-10  (  81.323 %)
B  2          = 0.1678E-07  +/-  0.7631E-10  (   0.455 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6173E-08  +/-  0.7443E-10  (   1.206 %)
accumulated results Integral      = 0.3154E-08  +/-  0.7476E-10  (   2.370 %)
accumulated results Virtual       = -.2052E-10  +/-  0.1669E-10  (  81.323 %)
accumulated results Virtual ratio = -.2911E+00  +/-  0.3696E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2934E-08  +/-  0.1622E-10  (   0.553 %)
accumulated results Born          = 0.1678E-07  +/-  0.7631E-10  (   0.455 %)
accumulated results V  2          = -.2052E-10  +/-  0.1669E-10  (  81.323 %)
accumulated results B  2          = 0.1678E-07  +/-  0.7631E-10  (   0.455 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   481003    11605  0.1059E-08  0.4985E-09  0.8679E+00
channel    2 :     1 T    16765    11053  0.1057E-08  0.5602E-09  0.8945E+00
channel    3 :     2 T    31083    21384  0.2060E-08  0.9375E-09  0.2436E+00
channel    4 :     2 T    31027    21494  0.1997E-08  0.1158E-08  0.9368E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1734754245074146E-009  +/-   7.4425198810200445E-011
 Final result:   3.1542037343567297E-009  +/-   7.4762373060380852E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363738
   Stability unknown:                                          0
   Stable PS point:                                       363738
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363738
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363738
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.17744207    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.71533585    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.01441765    
 Time spent in Integrated_CT :    8.84344482    
 Time spent in Virtuals :    533.317627    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.78516579    
 Time spent in N1body_prefactor :   0.605730772    
 Time spent in Adding_alphas_pdf :    5.60389805    
 Time spent in Reweight_scale :    26.7675934    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.4751854    
 Time spent in Applying_cuts :    4.88855171    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.8732262    
 Time spent in Other_tasks :    20.0520630    
 Time spent in Total :    666.119568    
Time in seconds: 671



LOG file for integration channel /P0_bxb_emep/all_G1_15, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       22977
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          15
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,  47355
  with seed                   49
 Ranmar initialization seeds         124       26703
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.433700D+04 0.433700D+04  1.00
 muF1, muF1_reference: 0.433700D+04 0.433700D+04  1.00
 muF2, muF2_reference: 0.433700D+04 0.433700D+04  1.00
 QES,  QES_reference:  0.433700D+04 0.433700D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4812979025677184E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4812979025677184E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6626169568381345E-006           OLP:   -1.6626169568381330E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.9858994641791878E-006           OLP:   -1.9858994641791831E-006
  FINITE:
           OLP:   -1.8078459498677087E-004
           BORN:    6.2290718903553290E-004
  MOMENTA (Exyzm): 
           1   2168.5020259220087        0.0000000000000000        0.0000000000000000        2168.5020259220087        0.0000000000000000     
           2   2168.5020259220087       -0.0000000000000000       -0.0000000000000000       -2168.5020259220087        0.0000000000000000     
           3   2168.5020259220087       -1034.8789409586007       -1827.3604288788842        540.53721144417102        0.0000000000000000     
           4   2168.5020259220087        1034.8789409586007        1827.3604288788842       -540.53721144417102        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6626169568381345E-006           OLP:   -1.6626169568381330E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.9858994641791878E-006           OLP:   -1.9858994641791831E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6168E-08  +/-  0.3514E-10  (   0.570 %)
Integral      = 0.3285E-08  +/-  0.3582E-10  (   1.090 %)
Virtual       = 0.1279E-10  +/-  0.1695E-10  ( 132.508 %)
Virtual ratio = -.2915E+00  +/-  0.3690E-03  (   0.127 %)
ABS virtual   = 0.2942E-08  +/-  0.1649E-10  (   0.560 %)
Born          = 0.1673E-07  +/-  0.7590E-10  (   0.454 %)
V  2          = 0.1279E-10  +/-  0.1695E-10  ( 132.508 %)
B  2          = 0.1673E-07  +/-  0.7590E-10  (   0.454 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6168E-08  +/-  0.3514E-10  (   0.570 %)
accumulated results Integral      = 0.3285E-08  +/-  0.3582E-10  (   1.090 %)
accumulated results Virtual       = 0.1279E-10  +/-  0.1695E-10  ( 132.508 %)
accumulated results Virtual ratio = -.2915E+00  +/-  0.3690E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2942E-08  +/-  0.1649E-10  (   0.560 %)
accumulated results Born          = 0.1673E-07  +/-  0.7590E-10  (   0.454 %)
accumulated results V  2          = 0.1279E-10  +/-  0.1695E-10  ( 132.508 %)
accumulated results B  2          = 0.1673E-07  +/-  0.7590E-10  (   0.454 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                         3                         4
channel    1 :     1 T   480746    11605  0.1055E-08  0.4918E-09  0.8368E+00
channel    2 :     1 T    16772    11053  0.1067E-08  0.5806E-09  0.9165E+00
channel    3 :     2 T    30960    21384  0.2006E-08  0.1030E-08  0.7837E+00
channel    4 :     2 T    31396    21494  0.2040E-08  0.1183E-08  0.9091E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1683881605190200E-009  +/-   3.5137273078764678E-011
 Final result:   3.2853226431625883E-009  +/-   3.5823315337492481E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363286
   Stability unknown:                                          0
   Stable PS point:                                       363286
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363286
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363286
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.19502997    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.74617267    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.11596394    
 Time spent in Integrated_CT :    9.01202393    
 Time spent in Virtuals :    536.336792    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.22713184    
 Time spent in N1body_prefactor :   0.597995400    
 Time spent in Adding_alphas_pdf :    5.62350368    
 Time spent in Reweight_scale :    26.6110630    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.4095659    
 Time spent in Applying_cuts :    4.94744062    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.2287445    
 Time spent in Other_tasks :    19.9255371    
 Time spent in Total :    669.976990    
Time in seconds: 676



LOG file for integration channel /P0_bxb_emep/all_G1_16, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       22979
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          16
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,  50512
  with seed                   49
 Ranmar initialization seeds         124       29860
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.417738D+04 0.417738D+04  1.00
 muF1, muF1_reference: 0.417738D+04 0.417738D+04  1.00
 muF2, muF2_reference: 0.417738D+04 0.417738D+04  1.00
 QES,  QES_reference:  0.417738D+04 0.417738D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5078077995438586E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5078077995438586E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7728897271809217E-006           OLP:   -1.7728897271809227E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1928797309680635E-006           OLP:   -2.1928797309681131E-006
  FINITE:
           OLP:   -1.9007641916150494E-004
           BORN:    6.6422139620686863E-004
  MOMENTA (Exyzm): 
           1   2088.6881375258818        0.0000000000000000        0.0000000000000000        2088.6881375258818        0.0000000000000000     
           2   2088.6881375258818       -0.0000000000000000       -0.0000000000000000       -2088.6881375258818        0.0000000000000000     
           3   2088.6881375258818       -1757.1521181381968       -1035.3051607463735        450.75247497458213        0.0000000000000000     
           4   2088.6881375258818        1757.1521181381968        1035.3051607463735       -450.75247497458213        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7728897271809217E-006           OLP:   -1.7728897271809227E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1928797309680631E-006           OLP:   -2.1928797309681131E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.6150E-08  +/-  0.3733E-10  (   0.607 %)
Integral      = 0.3233E-08  +/-  0.3798E-10  (   1.175 %)
Virtual       = -.6448E-11  +/-  0.1726E-10  ( 267.725 %)
Virtual ratio = -.2922E+00  +/-  0.3684E-03  (   0.126 %)
ABS virtual   = 0.2965E-08  +/-  0.1680E-10  (   0.567 %)
Born          = 0.1686E-07  +/-  0.7806E-10  (   0.463 %)
V  2          = -.6448E-11  +/-  0.1726E-10  ( 267.725 %)
B  2          = 0.1686E-07  +/-  0.7806E-10  (   0.463 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6150E-08  +/-  0.3733E-10  (   0.607 %)
accumulated results Integral      = 0.3233E-08  +/-  0.3798E-10  (   1.175 %)
accumulated results Virtual       = -.6448E-11  +/-  0.1726E-10  ( 267.725 %)
accumulated results Virtual ratio = -.2922E+00  +/-  0.3684E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2965E-08  +/-  0.1680E-10  (   0.567 %)
accumulated results Born          = 0.1686E-07  +/-  0.7806E-10  (   0.463 %)
accumulated results V  2          = -.6448E-11  +/-  0.1726E-10  ( 267.725 %)
accumulated results B  2          = 0.1686E-07  +/-  0.7806E-10  (   0.463 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   480862    11605  0.1055E-08  0.4940E-09  0.8801E+00
channel    2 :     1 T    16463    11053  0.1058E-08  0.5793E-09  0.9426E+00
channel    3 :     2 T    31261    21384  0.2012E-08  0.1033E-08  0.7849E+00
channel    4 :     2 T    31286    21494  0.2025E-08  0.1127E-08  0.8165E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1499777025461421E-009  +/-   3.7329328765458155E-011
 Final result:   3.2327435908619133E-009  +/-   3.7978517720477840E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363681
   Stability unknown:                                          0
   Stable PS point:                                       363681
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363681
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363681
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.17657602    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.71990299    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    3.97100830    
 Time spent in Integrated_CT :    8.93371582    
 Time spent in Virtuals :    534.800293    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.81541538    
 Time spent in N1body_prefactor :   0.598906636    
 Time spent in Adding_alphas_pdf :    5.56798649    
 Time spent in Reweight_scale :    26.7243671    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.5474033    
 Time spent in Applying_cuts :    4.89727545    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.6276779    
 Time spent in Other_tasks :    19.7608643    
 Time spent in Total :    667.141418    
Time in seconds: 671



LOG file for integration channel /P0_bxb_emep/all_G1_17, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       22985
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          17
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,  53669
  with seed                   49
 Ranmar initialization seeds         124        2936
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.432247D+04 0.432247D+04  1.00
 muF1, muF1_reference: 0.432247D+04 0.432247D+04  1.00
 muF2, muF2_reference: 0.432247D+04 0.432247D+04  1.00
 QES,  QES_reference:  0.432247D+04 0.432247D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4836636435982290E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4836636435982290E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8415567348663528E-006           OLP:   -1.8415567348663557E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.3240153205978009E-006           OLP:   -2.3240153205979813E-006
  FINITE:
           OLP:   -2.0188915202556094E-004
           BORN:    6.8994781055678391E-004
  MOMENTA (Exyzm): 
           1   2161.2346351966839        0.0000000000000000        0.0000000000000000        2161.2346351966839        0.0000000000000000     
           2   2161.2346351966839       -0.0000000000000000       -0.0000000000000000       -2161.2346351966839        0.0000000000000000     
           3   2161.2346351966839       -1900.0711739132653       -938.94516849945455        423.13904687365039        0.0000000000000000     
           4   2161.2346351966839        1900.0711739132653        938.94516849945455       -423.13904687365039        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8415567348663528E-006           OLP:   -1.8415567348663557E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -2.3240153205978005E-006           OLP:   -2.3240153205979813E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6112E-08  +/-  0.3412E-10  (   0.558 %)
Integral      = 0.3241E-08  +/-  0.3482E-10  (   1.074 %)
Virtual       = 0.1348E-10  +/-  0.1704E-10  ( 126.398 %)
Virtual ratio = -.2908E+00  +/-  0.3693E-03  (   0.127 %)
ABS virtual   = 0.2946E-08  +/-  0.1658E-10  (   0.563 %)
Born          = 0.1672E-07  +/-  0.7679E-10  (   0.459 %)
V  2          = 0.1348E-10  +/-  0.1704E-10  ( 126.398 %)
B  2          = 0.1672E-07  +/-  0.7679E-10  (   0.459 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6112E-08  +/-  0.3412E-10  (   0.558 %)
accumulated results Integral      = 0.3241E-08  +/-  0.3482E-10  (   1.074 %)
accumulated results Virtual       = 0.1348E-10  +/-  0.1704E-10  ( 126.398 %)
accumulated results Virtual ratio = -.2908E+00  +/-  0.3693E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2946E-08  +/-  0.1658E-10  (   0.563 %)
accumulated results Born          = 0.1672E-07  +/-  0.7679E-10  (   0.459 %)
accumulated results V  2          = 0.1348E-10  +/-  0.1704E-10  ( 126.398 %)
accumulated results B  2          = 0.1672E-07  +/-  0.7679E-10  (   0.459 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                         3                         4
channel    1 :     1 T   480910    11605  0.1061E-08  0.4971E-09  0.8859E+00
channel    2 :     1 T    16613    11053  0.1060E-08  0.5619E-09  0.9524E+00
channel    3 :     2 T    30935    21384  0.1978E-08  0.1001E-08  0.7969E+00
channel    4 :     2 T    31411    21494  0.2013E-08  0.1181E-08  0.9487E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1119843262849622E-009  +/-   3.4120490355325829E-011
 Final result:   3.2407046162020107E-009  +/-   3.4816271038826742E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363976
   Stability unknown:                                          0
   Stable PS point:                                       363976
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363976
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363976
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.19851363    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.75400400    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.10988235    
 Time spent in Integrated_CT :    9.07012939    
 Time spent in Virtuals :    544.922119    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.88939381    
 Time spent in N1body_prefactor :   0.595529616    
 Time spent in Adding_alphas_pdf :    5.65356302    
 Time spent in Reweight_scale :    26.5583324    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.9058342    
 Time spent in Applying_cuts :    5.13860035    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.1945114    
 Time spent in Other_tasks :    20.1668701    
 Time spent in Total :    679.157288    
Time in seconds: 704



LOG file for integration channel /P0_bxb_emep/all_G1_18, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       22989
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          18
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,  56826
  with seed                   49
 Ranmar initialization seeds         124        6093
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.427112D+04 0.427112D+04  1.00
 muF1, muF1_reference: 0.427112D+04 0.427112D+04  1.00
 muF2, muF2_reference: 0.427112D+04 0.427112D+04  1.00
 QES,  QES_reference:  0.427112D+04 0.427112D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4920973812403521E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4920973812403521E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6881509781119909E-006           OLP:   -1.6881509781119897E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0334383218386396E-006           OLP:   -2.0334383218389178E-006
  FINITE:
           OLP:   -1.8233901385821064E-004
           BORN:    6.3247362906915271E-004
  MOMENTA (Exyzm): 
           1   2135.5599047380961        0.0000000000000000        0.0000000000000000        2135.5599047380961        0.0000000000000000     
           2   2135.5599047380961       -0.0000000000000000       -0.0000000000000000       -2135.5599047380961        0.0000000000000000     
           3   2135.5599047380961       -1283.5461769767028       -1627.0965621665487        515.44359117101760        0.0000000000000000     
           4   2135.5599047380961        1283.5461769767028        1627.0965621665487       -515.44359117101760        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6881509781119909E-006           OLP:   -1.6881509781119897E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0334383218386400E-006           OLP:   -2.0334383218389178E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6057E-08  +/-  0.3383E-10  (   0.559 %)
Integral      = 0.3184E-08  +/-  0.3453E-10  (   1.084 %)
Virtual       = -.3466E-10  +/-  0.1663E-10  (  47.972 %)
Virtual ratio = -.2913E+00  +/-  0.3684E-03  (   0.126 %)
ABS virtual   = 0.2896E-08  +/-  0.1617E-10  (   0.558 %)
Born          = 0.1669E-07  +/-  0.7692E-10  (   0.461 %)
V  2          = -.3466E-10  +/-  0.1663E-10  (  47.972 %)
B  2          = 0.1669E-07  +/-  0.7692E-10  (   0.461 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6057E-08  +/-  0.3383E-10  (   0.559 %)
accumulated results Integral      = 0.3184E-08  +/-  0.3453E-10  (   1.084 %)
accumulated results Virtual       = -.3466E-10  +/-  0.1663E-10  (  47.972 %)
accumulated results Virtual ratio = -.2913E+00  +/-  0.3684E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2896E-08  +/-  0.1617E-10  (   0.558 %)
accumulated results Born          = 0.1669E-07  +/-  0.7692E-10  (   0.461 %)
accumulated results V  2          = -.3466E-10  +/-  0.1663E-10  (  47.972 %)
accumulated results B  2          = 0.1669E-07  +/-  0.7692E-10  (   0.461 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   481701    11605  0.1059E-08  0.5003E-09  0.8039E+00
channel    2 :     1 T    16640    11053  0.1071E-08  0.5848E-09  0.9411E+00
channel    3 :     2 T    30660    21384  0.1948E-08  0.1001E-08  0.8290E+00
channel    4 :     2 T    30863    21494  0.1978E-08  0.1099E-08  0.8850E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0568651431188045E-009  +/-   3.3833024180507452E-011
 Final result:   3.1841821200098695E-009  +/-   3.4526641961609549E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    364023
   Stability unknown:                                          0
   Stable PS point:                                       364023
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 364023
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       364023
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.19960177    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.73282766    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.13212490    
 Time spent in Integrated_CT :    9.24505615    
 Time spent in Virtuals :    545.428772    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.96750593    
 Time spent in N1body_prefactor :   0.596939445    
 Time spent in Adding_alphas_pdf :    5.66354084    
 Time spent in Reweight_scale :    26.6657238    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.9312019    
 Time spent in Applying_cuts :    5.01020002    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.9226990    
 Time spent in Other_tasks :    20.1715698    
 Time spent in Total :    679.667786    
Time in seconds: 707



LOG file for integration channel /P0_bxb_emep/all_G1_19, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        1908
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          19
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,  59983
  with seed                   49
 Ranmar initialization seeds         124        9250
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.442952D+04 0.442952D+04  1.00
 muF1, muF1_reference: 0.442952D+04 0.442952D+04  1.00
 muF2, muF2_reference: 0.442952D+04 0.442952D+04  1.00
 QES,  QES_reference:  0.442952D+04 0.442952D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4664561104136148E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4664561104136148E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6713670562858996E-006           OLP:   -1.6713670562859023E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0021989184685796E-006           OLP:   -2.0021989184685691E-006
  FINITE:
           OLP:   -1.8406849289549719E-004
           BORN:    6.2618545456047630E-004
  MOMENTA (Exyzm): 
           1   2214.7598790647726        0.0000000000000000        0.0000000000000000        2214.7598790647726        0.0000000000000000     
           2   2214.7598790647726       -0.0000000000000000       -0.0000000000000000       -2214.7598790647726        0.0000000000000000     
           3   2214.7598790647726       -1237.0157477930086       -1754.0894453658548        546.00694069143344        0.0000000000000000     
           4   2214.7598790647726        1237.0157477930086        1754.0894453658548       -546.00694069143344        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6713670562858996E-006           OLP:   -1.6713670562859023E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0021989184685796E-006           OLP:   -2.0021989184685691E-006
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 Error #15 in genps_fks.f  -1.0728836059570312E-006           3
ABS integral  = 0.6126E-08  +/-  0.3439E-10  (   0.561 %)
Integral      = 0.3230E-08  +/-  0.3509E-10  (   1.086 %)
Virtual       = -.1059E-10  +/-  0.1684E-10  ( 159.067 %)
Virtual ratio = -.2915E+00  +/-  0.3695E-03  (   0.127 %)
ABS virtual   = 0.2918E-08  +/-  0.1638E-10  (   0.561 %)
Born          = 0.1673E-07  +/-  0.7626E-10  (   0.456 %)
V  2          = -.1059E-10  +/-  0.1684E-10  ( 159.067 %)
B  2          = 0.1673E-07  +/-  0.7626E-10  (   0.456 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6126E-08  +/-  0.3439E-10  (   0.561 %)
accumulated results Integral      = 0.3230E-08  +/-  0.3509E-10  (   1.086 %)
accumulated results Virtual       = -.1059E-10  +/-  0.1684E-10  ( 159.067 %)
accumulated results Virtual ratio = -.2915E+00  +/-  0.3695E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2918E-08  +/-  0.1638E-10  (   0.561 %)
accumulated results Born          = 0.1673E-07  +/-  0.7626E-10  (   0.456 %)
accumulated results V  2          = -.1059E-10  +/-  0.1684E-10  ( 159.067 %)
accumulated results B  2          = 0.1673E-07  +/-  0.7626E-10  (   0.456 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                         3                        4
channel    1 :     1 T   481122    11605  0.1055E-08  0.4957E-09  0.8866E+00
channel    2 :     1 T    16639    11053  0.1070E-08  0.5838E-09  0.9644E+00
channel    3 :     2 T    31138    21384  0.2029E-08  0.1030E-08  0.7837E+00
channel    4 :     2 T    30974    21494  0.1972E-08  0.1121E-08  0.9076E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1261130533885720E-009  +/-   3.4392176754793384E-011
 Final result:   3.2300729627928675E-009  +/-   3.5088721856240201E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363220
   Stability unknown:                                          0
   Stable PS point:                                       363220
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363220
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363220
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.56815410    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    4.31326675    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.68712568    
 Time spent in Integrated_CT :    10.0211792    
 Time spent in Virtuals :    590.557007    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.49293327    
 Time spent in N1body_prefactor :   0.853750885    
 Time spent in Adding_alphas_pdf :    6.20236635    
 Time spent in Reweight_scale :    33.2681427    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.5300941    
 Time spent in Applying_cuts :    6.13307381    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    46.5080795    
 Time spent in Other_tasks :    26.4606934    
 Time spent in Total :    755.595825    
Time in seconds: 831



LOG file for integration channel /P0_bxb_emep/all_G1_20, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        1902
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          20
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,  63140
  with seed                   49
 Ranmar initialization seeds         124       12407
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.418668D+04 0.418668D+04  1.00
 muF1, muF1_reference: 0.418668D+04 0.418668D+04  1.00
 muF2, muF2_reference: 0.418668D+04 0.418668D+04  1.00
 QES,  QES_reference:  0.418668D+04 0.418668D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5062304816295972E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5062304816295972E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6940809240555635E-006           OLP:   -1.6940809240555644E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0444880397167127E-006           OLP:   -2.0444880397167021E-006
  FINITE:
           OLP:   -1.8097289230572242E-004
           BORN:    6.3469531094461490E-004
  MOMENTA (Exyzm): 
           1   2093.3386676206478        0.0000000000000000        0.0000000000000000        2093.3386676206478        0.0000000000000000     
           2   2093.3386676206478       -0.0000000000000000       -0.0000000000000000       -2093.3386676206478        0.0000000000000000     
           3   2093.3386676206478       -2003.4094389401021       -341.98349818191082        501.46254525413639        0.0000000000000000     
           4   2093.3386676206478        2003.4094389401021        341.98349818191082       -501.46254525413639        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6940809240555635E-006           OLP:   -1.6940809240555644E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0444880397167131E-006           OLP:   -2.0444880397167021E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6187E-08  +/-  0.3505E-10  (   0.566 %)
Integral      = 0.3274E-08  +/-  0.3574E-10  (   1.092 %)
Virtual       = 0.6882E-11  +/-  0.1752E-10  ( 254.583 %)
Virtual ratio = -.2921E+00  +/-  0.3690E-03  (   0.126 %)
ABS virtual   = 0.2959E-08  +/-  0.1707E-10  (   0.577 %)
Born          = 0.1686E-07  +/-  0.7831E-10  (   0.464 %)
V  2          = 0.6882E-11  +/-  0.1752E-10  ( 254.583 %)
B  2          = 0.1686E-07  +/-  0.7831E-10  (   0.464 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6187E-08  +/-  0.3505E-10  (   0.566 %)
accumulated results Integral      = 0.3274E-08  +/-  0.3574E-10  (   1.092 %)
accumulated results Virtual       = 0.6882E-11  +/-  0.1752E-10  ( 254.583 %)
accumulated results Virtual ratio = -.2921E+00  +/-  0.3690E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2959E-08  +/-  0.1707E-10  (   0.577 %)
accumulated results Born          = 0.1686E-07  +/-  0.7831E-10  (   0.464 %)
accumulated results V  2          = 0.6882E-11  +/-  0.1752E-10  ( 254.583 %)
accumulated results B  2          = 0.1686E-07  +/-  0.7831E-10  (   0.464 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                         3                        4
channel    1 :     1 T   481297    11605  0.1058E-08  0.4953E-09  0.8724E+00
channel    2 :     1 T    16658    11053  0.1078E-08  0.5668E-09  0.9653E+00
channel    3 :     2 T    31057    21384  0.2034E-08  0.1050E-08  0.7865E+00
channel    4 :     2 T    30863    21494  0.2018E-08  0.1161E-08  0.9559E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1866288088159563E-009  +/-   3.5045908745797900E-011
 Final result:   3.2738987711264758E-009  +/-   3.5741209356257789E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363078
   Stability unknown:                                          0
   Stable PS point:                                       363078
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363078
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363078
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.60227776    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    4.29953718    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.61614084    
 Time spent in Integrated_CT :    10.0399780    
 Time spent in Virtuals :    591.001038    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.48969460    
 Time spent in N1body_prefactor :   0.878924608    
 Time spent in Adding_alphas_pdf :    6.26151896    
 Time spent in Reweight_scale :    33.9443092    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.6648064    
 Time spent in Applying_cuts :    6.15577602    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    46.6261597    
 Time spent in Other_tasks :    26.7024536    
 Time spent in Total :    757.282593    
Time in seconds: 831



LOG file for integration channel /P0_bxb_emep/all_G1_21, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        1903
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          21
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,  66297
  with seed                   49
 Ranmar initialization seeds         124       15564
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.419884D+04 0.419884D+04  1.00
 muF1, muF1_reference: 0.419884D+04 0.419884D+04  1.00
 muF2, muF2_reference: 0.419884D+04 0.419884D+04  1.00
 QES,  QES_reference:  0.419884D+04 0.419884D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5041743090505500E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5041743090505500E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8059840889497002E-006           OLP:   -1.8059840889496993E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2558562360081196E-006           OLP:   -2.2558562360080722E-006
  FINITE:
           OLP:   -1.9448511216987418E-004
           BORN:    6.7662035303064525E-004
  MOMENTA (Exyzm): 
           1   2099.4194627104484        0.0000000000000000        0.0000000000000000        2099.4194627104484        0.0000000000000000     
           2   2099.4194627104484       -0.0000000000000000       -0.0000000000000000       -2099.4194627104484        0.0000000000000000     
           3   2099.4194627104484       -1810.5136798674710       -970.77426567987368        432.66571451165311        0.0000000000000000     
           4   2099.4194627104484        1810.5136798674710        970.77426567987368       -432.66571451165311        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8059840889497002E-006           OLP:   -1.8059840889496993E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2558562360081196E-006           OLP:   -2.2558562360080722E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 Error #15 in genps_fks.f  -1.0468065738677979E-006           3
ABS integral  = 0.6156E-08  +/-  0.4014E-10  (   0.652 %)
Integral      = 0.3208E-08  +/-  0.4075E-10  (   1.270 %)
Virtual       = -.1379E-10  +/-  0.1688E-10  ( 122.430 %)
Virtual ratio = -.2908E+00  +/-  0.3699E-03  (   0.127 %)
ABS virtual   = 0.2939E-08  +/-  0.1642E-10  (   0.559 %)
Born          = 0.1675E-07  +/-  0.7741E-10  (   0.462 %)
V  2          = -.1379E-10  +/-  0.1688E-10  ( 122.430 %)
B  2          = 0.1675E-07  +/-  0.7741E-10  (   0.462 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6156E-08  +/-  0.4014E-10  (   0.652 %)
accumulated results Integral      = 0.3208E-08  +/-  0.4075E-10  (   1.270 %)
accumulated results Virtual       = -.1379E-10  +/-  0.1688E-10  ( 122.430 %)
accumulated results Virtual ratio = -.2908E+00  +/-  0.3699E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2939E-08  +/-  0.1642E-10  (   0.559 %)
accumulated results Born          = 0.1675E-07  +/-  0.7741E-10  (   0.462 %)
accumulated results V  2          = -.1379E-10  +/-  0.1688E-10  ( 122.430 %)
accumulated results B  2          = 0.1675E-07  +/-  0.7741E-10  (   0.462 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   481194    11605  0.1060E-08  0.4991E-09  0.8704E+00
channel    2 :     1 T    16690    11053  0.1068E-08  0.5734E-09  0.8933E+00
channel    3 :     2 T    30743    21384  0.1993E-08  0.1000E-08  0.7247E+00
channel    4 :     2 T    31242    21494  0.2035E-08  0.1135E-08  0.7264E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1561984885001549E-009  +/-   4.0137483874345150E-011
 Final result:   3.2078151261682870E-009  +/-   4.0747148816485648E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363500
   Stability unknown:                                          0
   Stable PS point:                                       363500
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363500
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363500
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.57981205    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    4.34773684    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.49172497    
 Time spent in Integrated_CT :    9.91528320    
 Time spent in Virtuals :    589.417236    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.53874397    
 Time spent in N1body_prefactor :   0.810445368    
 Time spent in Adding_alphas_pdf :    6.17286015    
 Time spent in Reweight_scale :    33.6791763    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    15.9432440    
 Time spent in Applying_cuts :    6.01964569    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    46.8364563    
 Time spent in Other_tasks :    26.1658936    
 Time spent in Total :    753.918213    
Time in seconds: 831



LOG file for integration channel /P0_bxb_emep/all_G1_22, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        1906
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          22
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,  69454
  with seed                   49
 Ranmar initialization seeds         124       18721
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.427400D+04 0.427400D+04  1.00
 muF1, muF1_reference: 0.427400D+04 0.427400D+04  1.00
 muF2, muF2_reference: 0.427400D+04 0.427400D+04  1.00
 QES,  QES_reference:  0.427400D+04 0.427400D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4916219762683936E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4916219762683936E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6843384207272785E-006           OLP:   -1.6843384207272796E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0263235382630359E-006           OLP:   -2.0263235382630512E-006
  FINITE:
           OLP:   -1.8194358315472183E-004
           BORN:    6.3104523668221083E-004
  MOMENTA (Exyzm): 
           1   2136.9975518591914        0.0000000000000000        0.0000000000000000        2136.9975518591914        0.0000000000000000     
           2   2136.9975518591914       -0.0000000000000000       -0.0000000000000000       -2136.9975518591914        0.0000000000000000     
           3   2136.9975518591914       -2065.9921556895697       -172.62276206684615        518.30139040692870        0.0000000000000000     
           4   2136.9975518591914        2065.9921556895697        172.62276206684615       -518.30139040692870        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6843384207272785E-006           OLP:   -1.6843384207272796E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0263235382630359E-006           OLP:   -2.0263235382630512E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.6141E-08  +/-  0.3458E-10  (   0.563 %)
Integral      = 0.3255E-08  +/-  0.3527E-10  (   1.084 %)
Virtual       = -.1165E-10  +/-  0.1695E-10  ( 145.442 %)
Virtual ratio = -.2915E+00  +/-  0.3698E-03  (   0.127 %)
ABS virtual   = 0.2940E-08  +/-  0.1649E-10  (   0.561 %)
Born          = 0.1681E-07  +/-  0.7825E-10  (   0.465 %)
V  2          = -.1165E-10  +/-  0.1695E-10  ( 145.442 %)
B  2          = 0.1681E-07  +/-  0.7825E-10  (   0.465 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6141E-08  +/-  0.3458E-10  (   0.563 %)
accumulated results Integral      = 0.3255E-08  +/-  0.3527E-10  (   1.084 %)
accumulated results Virtual       = -.1165E-10  +/-  0.1695E-10  ( 145.442 %)
accumulated results Virtual ratio = -.2915E+00  +/-  0.3698E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2940E-08  +/-  0.1649E-10  (   0.561 %)
accumulated results Born          = 0.1681E-07  +/-  0.7825E-10  (   0.465 %)
accumulated results V  2          = -.1165E-10  +/-  0.1695E-10  ( 145.442 %)
accumulated results B  2          = 0.1681E-07  +/-  0.7825E-10  (   0.465 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                         3                         4
channel    1 :     1 T   480872    11605  0.1059E-08  0.5001E-09  0.8920E+00
channel    2 :     1 T    16888    11053  0.1084E-08  0.5833E-09  0.8763E+00
channel    3 :     2 T    31151    21384  0.2000E-08  0.1031E-08  0.8085E+00
channel    4 :     2 T    30952    21494  0.1998E-08  0.1140E-08  0.9400E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1410349505870507E-009  +/-   3.4576137583546051E-011
 Final result:   3.2547761146347447E-009  +/-   3.5269628405551096E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363060
   Stability unknown:                                          0
   Stable PS point:                                       363060
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363060
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363060
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.58387566    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    4.30192041    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.66569519    
 Time spent in Integrated_CT :    10.0335083    
 Time spent in Virtuals :    588.655212    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.48545265    
 Time spent in N1body_prefactor :   0.864406466    
 Time spent in Adding_alphas_pdf :    6.39241791    
 Time spent in Reweight_scale :    33.2147598    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.7893963    
 Time spent in Applying_cuts :    6.10359955    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    46.5198822    
 Time spent in Other_tasks :    26.6276245    
 Time spent in Total :    754.237732    
Time in seconds: 831



LOG file for integration channel /P0_bxb_emep/all_G1_23, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        1911
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          23
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,  72611
  with seed                   49
 Ranmar initialization seeds         124       21878
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.424389D+04 0.424389D+04  1.00
 muF1, muF1_reference: 0.424389D+04 0.424389D+04  1.00
 muF2, muF2_reference: 0.424389D+04 0.424389D+04  1.00
 QES,  QES_reference:  0.424389D+04 0.424389D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4966186666810028E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4966186666810028E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8233715536051398E-006           OLP:   -1.8233715536051417E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2891105761573009E-006           OLP:   -2.2891105761575169E-006
  FINITE:
           OLP:   -1.9769326524941120E-004
           BORN:    6.8313464767225161E-004
  MOMENTA (Exyzm): 
           1   2121.9443289998890        0.0000000000000000        0.0000000000000000        2121.9443289998890        0.0000000000000000     
           2   2121.9443289998890       -0.0000000000000000       -0.0000000000000000       -2121.9443289998890        0.0000000000000000     
           3   2121.9443289998890       -1656.5046322380379       -1255.6536145144071        426.58426964155399        0.0000000000000000     
           4   2121.9443289998890        1656.5046322380379        1255.6536145144071       -426.58426964155399        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8233715536051398E-006           OLP:   -1.8233715536051417E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2891105761573004E-006           OLP:   -2.2891105761575169E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 Error #15 in genps_fks.f  -1.0356307029724121E-006           3
 Error #15 in genps_fks.f  -1.0505318641662598E-006           3
ABS integral  = 0.6067E-08  +/-  0.3320E-10  (   0.547 %)
Integral      = 0.3218E-08  +/-  0.3391E-10  (   1.054 %)
Virtual       = -.1429E-10  +/-  0.1649E-10  ( 115.402 %)
Virtual ratio = -.2911E+00  +/-  0.3692E-03  (   0.127 %)
ABS virtual   = 0.2925E-08  +/-  0.1602E-10  (   0.548 %)
Born          = 0.1674E-07  +/-  0.7649E-10  (   0.457 %)
V  2          = -.1429E-10  +/-  0.1649E-10  ( 115.402 %)
B  2          = 0.1674E-07  +/-  0.7649E-10  (   0.457 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6067E-08  +/-  0.3320E-10  (   0.547 %)
accumulated results Integral      = 0.3218E-08  +/-  0.3391E-10  (   1.054 %)
accumulated results Virtual       = -.1429E-10  +/-  0.1649E-10  ( 115.402 %)
accumulated results Virtual ratio = -.2911E+00  +/-  0.3692E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2925E-08  +/-  0.1602E-10  (   0.548 %)
accumulated results Born          = 0.1674E-07  +/-  0.7649E-10  (   0.457 %)
accumulated results V  2          = -.1429E-10  +/-  0.1649E-10  ( 115.402 %)
accumulated results B  2          = 0.1674E-07  +/-  0.7649E-10  (   0.457 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                         3                         4
channel    1 :     1 T   481069    11605  0.1055E-08  0.4954E-09  0.8808E+00
channel    2 :     1 T    16552    11053  0.1038E-08  0.5536E-09  0.9237E+00
channel    3 :     2 T    31030    21384  0.1980E-08  0.1020E-08  0.8314E+00
channel    4 :     2 T    31219    21494  0.1993E-08  0.1149E-08  0.9163E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0668749975400746E-009  +/-   3.3203943238490291E-011
 Final result:   3.2181456383291135E-009  +/-   3.3907900264305653E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363923
   Stability unknown:                                          0
   Stable PS point:                                       363923
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363923
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363923
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.54969966    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    4.29241276    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.65968943    
 Time spent in Integrated_CT :    10.0898438    
 Time spent in Virtuals :    593.495605    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.41439629    
 Time spent in N1body_prefactor :   0.846407652    
 Time spent in Adding_alphas_pdf :    6.28900099    
 Time spent in Reweight_scale :    33.3897972    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.8136292    
 Time spent in Applying_cuts :    6.09381104    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    46.5665092    
 Time spent in Other_tasks :    26.7182617    
 Time spent in Total :    759.219055    
Time in seconds: 831



LOG file for integration channel /P0_bxb_emep/all_G1_24, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        1918
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          24
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,  75768
  with seed                   49
 Ranmar initialization seeds         124       25035
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.430189D+04 0.430189D+04  1.00
 muF1, muF1_reference: 0.430189D+04 0.430189D+04  1.00
 muF2, muF2_reference: 0.430189D+04 0.430189D+04  1.00
 QES,  QES_reference:  0.430189D+04 0.430189D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4870287829503487E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4870287829503487E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7807513593554277E-006           OLP:   -1.7807513593554309E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2078455599004431E-006           OLP:   -2.2078455599004181E-006
  FINITE:
           OLP:   -1.9423419651623574E-004
           BORN:    6.6716679332850376E-004
  MOMENTA (Exyzm): 
           1   2150.9466766381115        0.0000000000000000        0.0000000000000000        2150.9466766381115        0.0000000000000000     
           2   2150.9466766381115       -0.0000000000000000       -0.0000000000000000       -2150.9466766381115        0.0000000000000000     
           3   2150.9466766381115       -1521.0808302013618       -1449.8487239239716        459.15508433480801        0.0000000000000000     
           4   2150.9466766381115        1521.0808302013618        1449.8487239239716       -459.15508433480801        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7807513593554277E-006           OLP:   -1.7807513593554309E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2078455599004435E-006           OLP:   -2.2078455599004181E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6148E-08  +/-  0.3486E-10  (   0.567 %)
Integral      = 0.3301E-08  +/-  0.3555E-10  (   1.077 %)
Virtual       = 0.1359E-10  +/-  0.1688E-10  ( 124.277 %)
Virtual ratio = -.2913E+00  +/-  0.3691E-03  (   0.127 %)
ABS virtual   = 0.2938E-08  +/-  0.1642E-10  (   0.559 %)
Born          = 0.1677E-07  +/-  0.7701E-10  (   0.459 %)
V  2          = 0.1359E-10  +/-  0.1688E-10  ( 124.277 %)
B  2          = 0.1677E-07  +/-  0.7701E-10  (   0.459 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6148E-08  +/-  0.3486E-10  (   0.567 %)
accumulated results Integral      = 0.3301E-08  +/-  0.3555E-10  (   1.077 %)
accumulated results Virtual       = 0.1359E-10  +/-  0.1688E-10  ( 124.277 %)
accumulated results Virtual ratio = -.2913E+00  +/-  0.3691E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2938E-08  +/-  0.1642E-10  (   0.559 %)
accumulated results Born          = 0.1677E-07  +/-  0.7701E-10  (   0.459 %)
accumulated results V  2          = 0.1359E-10  +/-  0.1688E-10  ( 124.277 %)
accumulated results B  2          = 0.1677E-07  +/-  0.7701E-10  (   0.459 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                         3                        4
channel    1 :     1 T   481059    11605  0.1062E-08  0.4994E-09  0.7427E+00
channel    2 :     1 T    16754    11053  0.1068E-08  0.5769E-09  0.8999E+00
channel    3 :     2 T    30921    21384  0.2010E-08  0.1082E-08  0.8069E+00
channel    4 :     2 T    31138    21494  0.2007E-08  0.1143E-08  0.9044E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1478586763884631E-009  +/-   3.4864370706207075E-011
 Final result:   3.3013720758443698E-009  +/-   3.5546671812564848E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363330
   Stability unknown:                                          0
   Stable PS point:                                       363330
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363330
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363330
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.58351302    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    4.30068207    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.61579370    
 Time spent in Integrated_CT :    9.96563721    
 Time spent in Virtuals :    591.888367    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.47903442    
 Time spent in N1body_prefactor :   0.849810719    
 Time spent in Adding_alphas_pdf :    6.23500109    
 Time spent in Reweight_scale :    33.7867203    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.6863937    
 Time spent in Applying_cuts :    6.13100958    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    46.4448166    
 Time spent in Other_tasks :    26.5745850    
 Time spent in Total :    757.541321    
Time in seconds: 831



LOG file for integration channel /P0_bxb_emep/all_G1_25, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        1919
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          25
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,  78925
  with seed                   49
 Ranmar initialization seeds         124       28192
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.411573D+04 0.411573D+04  1.00
 muF1, muF1_reference: 0.411573D+04 0.411573D+04  1.00
 muF2, muF2_reference: 0.411573D+04 0.411573D+04  1.00
 QES,  QES_reference:  0.411573D+04 0.411573D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5183683084413117E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5183683084413117E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7584719547625618E-006           OLP:   -1.7584719547625633E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1655456629698494E-006           OLP:   -2.1655456629699185E-006
  FINITE:
           OLP:   -1.8678049005043469E-004
           BORN:    6.5881971059772264E-004
  MOMENTA (Exyzm): 
           1   2057.8650707756610        0.0000000000000000        0.0000000000000000        2057.8650707756610        0.0000000000000000     
           2   2057.8650707756610       -0.0000000000000000       -0.0000000000000000       -2057.8650707756610        0.0000000000000000     
           3   2057.8650707756610       -1617.7487302783190       -1188.5099478969018        452.92582058379821        0.0000000000000000     
           4   2057.8650707756610        1617.7487302783190        1188.5099478969018       -452.92582058379821        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7584719547625618E-006           OLP:   -1.7584719547625633E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1655456629698494E-006           OLP:   -2.1655456629699185E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6074E-08  +/-  0.3487E-10  (   0.574 %)
Integral      = 0.3184E-08  +/-  0.3555E-10  (   1.117 %)
Virtual       = -.2406E-10  +/-  0.1688E-10  (  70.168 %)
Virtual ratio = -.2916E+00  +/-  0.3695E-03  (   0.127 %)
ABS virtual   = 0.2911E-08  +/-  0.1643E-10  (   0.564 %)
Born          = 0.1665E-07  +/-  0.7632E-10  (   0.458 %)
V  2          = -.2406E-10  +/-  0.1688E-10  (  70.168 %)
B  2          = 0.1665E-07  +/-  0.7632E-10  (   0.458 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6074E-08  +/-  0.3487E-10  (   0.574 %)
accumulated results Integral      = 0.3184E-08  +/-  0.3555E-10  (   1.117 %)
accumulated results Virtual       = -.2406E-10  +/-  0.1688E-10  (  70.168 %)
accumulated results Virtual ratio = -.2916E+00  +/-  0.3695E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2911E-08  +/-  0.1643E-10  (   0.564 %)
accumulated results Born          = 0.1665E-07  +/-  0.7632E-10  (   0.458 %)
accumulated results V  2          = -.2406E-10  +/-  0.1688E-10  (  70.168 %)
accumulated results B  2          = 0.1665E-07  +/-  0.7632E-10  (   0.458 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                  2                          3                        4
channel    1 :     1 T   481146    11605  0.1057E-08  0.4961E-09  0.8812E+00
channel    2 :     1 T    16817    11053  0.1052E-08  0.5403E-09  0.9346E+00
channel    3 :     2 T    30904    21384  0.1991E-08  0.1010E-08  0.7356E+00
channel    4 :     2 T    31003    21494  0.1974E-08  0.1137E-08  0.9596E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0742603854144779E-009  +/-   3.4874295235597753E-011
 Final result:   3.1839883942854267E-009  +/-   3.5552933298312978E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363024
   Stability unknown:                                          0
   Stable PS point:                                       363024
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363024
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363024
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.58414054    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    4.30607891    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.66171074    
 Time spent in Integrated_CT :    9.91503906    
 Time spent in Virtuals :    591.250549    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.48340225    
 Time spent in N1body_prefactor :   0.855455816    
 Time spent in Adding_alphas_pdf :    6.42057753    
 Time spent in Reweight_scale :    33.5311775    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.5873947    
 Time spent in Applying_cuts :    6.09661770    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    46.7601166    
 Time spent in Other_tasks :    26.4133301    
 Time spent in Total :    756.865662    
Time in seconds: 830



LOG file for integration channel /P0_bxb_emep/all_G1_26, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        1907
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          26
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,  82082
  with seed                   49
 Ranmar initialization seeds         124        1268
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.424494D+04 0.424494D+04  1.00
 muF1, muF1_reference: 0.424494D+04 0.424494D+04  1.00
 muF2, muF2_reference: 0.424494D+04 0.424494D+04  1.00
 QES,  QES_reference:  0.424494D+04 0.424494D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4964435036161667E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4964435036161667E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.9455591267582743E-006           OLP:   -1.9455591267582764E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.5257105352022380E-006           OLP:   -2.5257105352022626E-006
  FINITE:
           OLP:   -2.1151251302157430E-004
           BORN:    7.2891279122772024E-004
  MOMENTA (Exyzm): 
           1   2122.4699066121098        0.0000000000000000        0.0000000000000000        2122.4699066121098        0.0000000000000000     
           2   2122.4699066121098       -0.0000000000000000       -0.0000000000000000       -2122.4699066121098        0.0000000000000000     
           3   2122.4699066121098       -1341.7542353332940       -1606.0918352441840        353.61432833124138        0.0000000000000000     
           4   2122.4699066121098        1341.7542353332940        1606.0918352441840       -353.61432833124138        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.9455591267582743E-006           OLP:   -1.9455591267582764E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.5257105352022380E-006           OLP:   -2.5257105352022626E-006
 REAL 1: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6058E-08  +/-  0.3413E-10  (   0.563 %)
Integral      = 0.3176E-08  +/-  0.3482E-10  (   1.097 %)
Virtual       = -.2381E-10  +/-  0.1689E-10  (  70.913 %)
Virtual ratio = -.2919E+00  +/-  0.3688E-03  (   0.126 %)
ABS virtual   = 0.2920E-08  +/-  0.1643E-10  (   0.563 %)
Born          = 0.1659E-07  +/-  0.7627E-10  (   0.460 %)
V  2          = -.2381E-10  +/-  0.1689E-10  (  70.913 %)
B  2          = 0.1659E-07  +/-  0.7627E-10  (   0.460 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6058E-08  +/-  0.3413E-10  (   0.563 %)
accumulated results Integral      = 0.3176E-08  +/-  0.3482E-10  (   1.097 %)
accumulated results Virtual       = -.2381E-10  +/-  0.1689E-10  (  70.913 %)
accumulated results Virtual ratio = -.2919E+00  +/-  0.3688E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2920E-08  +/-  0.1643E-10  (   0.563 %)
accumulated results Born          = 0.1659E-07  +/-  0.7627E-10  (   0.460 %)
accumulated results V  2          = -.2381E-10  +/-  0.1689E-10  (  70.913 %)
accumulated results B  2          = 0.1659E-07  +/-  0.7627E-10  (   0.460 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                         3                        4
channel    1 :     1 T   481364    11605  0.1063E-08  0.4975E-09  0.4792E+00
channel    2 :     1 T    16568    11053  0.1046E-08  0.5442E-09  0.9549E+00
channel    3 :     2 T    30950    21384  0.1974E-08  0.1009E-08  0.8197E+00
channel    4 :     2 T    30989    21494  0.1975E-08  0.1125E-08  0.9231E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0583305374059600E-009  +/-   3.4132119600988951E-011
 Final result:   3.1755360555576929E-009  +/-   3.4821645439073197E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    362915
   Stability unknown:                                          0
   Stable PS point:                                       362915
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 362915
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       362915
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.59378862    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    4.31941032    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.60981894    
 Time spent in Integrated_CT :    9.96899414    
 Time spent in Virtuals :    589.942322    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.50788879    
 Time spent in N1body_prefactor :   0.854481697    
 Time spent in Adding_alphas_pdf :    6.25354385    
 Time spent in Reweight_scale :    34.1846237    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.4858818    
 Time spent in Applying_cuts :    6.15499210    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    46.6943970    
 Time spent in Other_tasks :    26.5279541    
 Time spent in Total :    756.098083    
Time in seconds: 831



LOG file for integration channel /P0_bxb_emep/all_G1_27, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        1910
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          27
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,  85239
  with seed                   49
 Ranmar initialization seeds         124        4425
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.432500D+04 0.432500D+04  1.00
 muF1, muF1_reference: 0.432500D+04 0.432500D+04  1.00
 muF2, muF2_reference: 0.432500D+04 0.432500D+04  1.00
 QES,  QES_reference:  0.432500D+04 0.432500D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4832510461176976E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4832510461176976E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7275116055081222E-006           OLP:   -1.7275116055081216E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1072158152379551E-006           OLP:   -2.1072158152380177E-006
  FINITE:
           OLP:   -1.8845093122996179E-004
           BORN:    6.4722027150483793E-004
  MOMENTA (Exyzm): 
           1   2162.5000319606097        0.0000000000000000        0.0000000000000000        2162.5000319606097        0.0000000000000000     
           2   2162.5000319606097       -0.0000000000000000       -0.0000000000000000       -2162.5000319606097        0.0000000000000000     
           3   2162.5000319606097       -1498.4066685289265       -1478.2429010952881        495.96549204462696        0.0000000000000000     
           4   2162.5000319606097        1498.4066685289265        1478.2429010952881       -495.96549204462696        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7275116055081222E-006           OLP:   -1.7275116055081216E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1072158152379551E-006           OLP:   -2.1072158152380177E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.6095E-08  +/-  0.3696E-10  (   0.606 %)
Integral      = 0.3218E-08  +/-  0.3760E-10  (   1.168 %)
Virtual       = -.2298E-10  +/-  0.1666E-10  (  72.479 %)
Virtual ratio = -.2910E+00  +/-  0.3695E-03  (   0.127 %)
ABS virtual   = 0.2892E-08  +/-  0.1620E-10  (   0.560 %)
Born          = 0.1661E-07  +/-  0.7650E-10  (   0.461 %)
V  2          = -.2298E-10  +/-  0.1666E-10  (  72.479 %)
B  2          = 0.1661E-07  +/-  0.7650E-10  (   0.461 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6095E-08  +/-  0.3696E-10  (   0.606 %)
accumulated results Integral      = 0.3218E-08  +/-  0.3760E-10  (   1.168 %)
accumulated results Virtual       = -.2298E-10  +/-  0.1666E-10  (  72.479 %)
accumulated results Virtual ratio = -.2910E+00  +/-  0.3695E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2892E-08  +/-  0.1620E-10  (   0.560 %)
accumulated results Born          = 0.1661E-07  +/-  0.7650E-10  (   0.461 %)
accumulated results V  2          = -.2298E-10  +/-  0.1666E-10  (  72.479 %)
accumulated results B  2          = 0.1661E-07  +/-  0.7650E-10  (   0.461 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   481579    11605  0.1060E-08  0.4986E-09  0.8558E+00
channel    2 :     1 T    16614    11053  0.1051E-08  0.5608E-09  0.8873E+00
channel    3 :     2 T    30857    21384  0.2005E-08  0.1007E-08  0.6801E+00
channel    4 :     2 T    30822    21494  0.1978E-08  0.1152E-08  0.9006E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0945759011646370E-009  +/-   3.6955750571654172E-011
 Final result:   3.2183278031161934E-009  +/-   3.7597486278707535E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363093
   Stability unknown:                                          0
   Stable PS point:                                       363093
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363093
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363093
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.56650257    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    4.27648163    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.53547001    
 Time spent in Integrated_CT :    9.85308838    
 Time spent in Virtuals :    592.097168    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.45476913    
 Time spent in N1body_prefactor :   0.834352016    
 Time spent in Adding_alphas_pdf :    6.24589729    
 Time spent in Reweight_scale :    33.2086182    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.6124020    
 Time spent in Applying_cuts :    6.05438662    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    46.5843315    
 Time spent in Other_tasks :    26.4036255    
 Time spent in Total :    756.727173    
Time in seconds: 831



LOG file for integration channel /P0_bxb_emep/all_G1_28, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        1912
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          28
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,  88396
  with seed                   49
 Ranmar initialization seeds         124        7582
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.426651D+04 0.426651D+04  1.00
 muF1, muF1_reference: 0.426651D+04 0.426651D+04  1.00
 muF2, muF2_reference: 0.426651D+04 0.426651D+04  1.00
 QES,  QES_reference:  0.426651D+04 0.426651D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4928598515987183E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4928598515987183E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8478371881540354E-006           OLP:   -1.8478371881540331E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.3360691830262340E-006           OLP:   -2.3360691830262031E-006
  FINITE:
           OLP:   -2.0111565664351265E-004
           BORN:    6.9230081164173578E-004
  MOMENTA (Exyzm): 
           1   2133.2565453975085        0.0000000000000000        0.0000000000000000        2133.2565453975085        0.0000000000000000     
           2   2133.2565453975085       -0.0000000000000000       -0.0000000000000000       -2133.2565453975085        0.0000000000000000     
           3   2133.2565453975085       -2036.6993579869500       -481.01455787960020        413.84080123249123        0.0000000000000000     
           4   2133.2565453975085        2036.6993579869500        481.01455787960020       -413.84080123249123        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8478371881540354E-006           OLP:   -1.8478371881540331E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.3360691830262340E-006           OLP:   -2.3360691830262031E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6100E-08  +/-  0.3496E-10  (   0.573 %)
Integral      = 0.3225E-08  +/-  0.3564E-10  (   1.105 %)
Virtual       = -.1123E-10  +/-  0.1715E-10  ( 152.753 %)
Virtual ratio = -.2916E+00  +/-  0.3697E-03  (   0.127 %)
ABS virtual   = 0.2931E-08  +/-  0.1670E-10  (   0.570 %)
Born          = 0.1678E-07  +/-  0.7769E-10  (   0.463 %)
V  2          = -.1123E-10  +/-  0.1715E-10  ( 152.753 %)
B  2          = 0.1678E-07  +/-  0.7769E-10  (   0.463 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6100E-08  +/-  0.3496E-10  (   0.573 %)
accumulated results Integral      = 0.3225E-08  +/-  0.3564E-10  (   1.105 %)
accumulated results Virtual       = -.1123E-10  +/-  0.1715E-10  ( 152.753 %)
accumulated results Virtual ratio = -.2916E+00  +/-  0.3697E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2931E-08  +/-  0.1670E-10  (   0.570 %)
accumulated results Born          = 0.1678E-07  +/-  0.7769E-10  (   0.463 %)
accumulated results V  2          = -.1123E-10  +/-  0.1715E-10  ( 152.753 %)
accumulated results B  2          = 0.1678E-07  +/-  0.7769E-10  (   0.463 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   481091    11605  0.1064E-08  0.4884E-09  0.4126E+00
channel    2 :     1 T    16544    11053  0.1051E-08  0.5577E-09  0.9192E+00
channel    3 :     2 T    31091    21384  0.2003E-08  0.1048E-08  0.8224E+00
channel    4 :     2 T    31147    21494  0.1982E-08  0.1131E-08  0.9268E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1000402913913060E-009  +/-   3.4958350426331439E-011
 Final result:   3.2253241879195374E-009  +/-   3.5636613707692902E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363209
   Stability unknown:                                          0
   Stable PS point:                                       363209
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363209
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363209
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.57891929    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    4.27624035    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.56951952    
 Time spent in Integrated_CT :    9.92565918    
 Time spent in Virtuals :    593.209778    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.45122337    
 Time spent in N1body_prefactor :   0.854334176    
 Time spent in Adding_alphas_pdf :    6.20760727    
 Time spent in Reweight_scale :    33.1855392    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.4822960    
 Time spent in Applying_cuts :    6.04801464    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    46.4971352    
 Time spent in Other_tasks :    26.2493896    
 Time spent in Total :    757.535645    
Time in seconds: 831



LOG file for integration channel /P0_bxb_emep/all_G1_29, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        1909
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          29
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,  91553
  with seed                   49
 Ranmar initialization seeds         124       10739
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.439525D+04 0.439525D+04  1.00
 muF1, muF1_reference: 0.439525D+04 0.439525D+04  1.00
 muF2, muF2_reference: 0.439525D+04 0.439525D+04  1.00
 QES,  QES_reference:  0.439525D+04 0.439525D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4719110105370828E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4719110105370828E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5698128285903353E-006           OLP:   -1.5698128285903351E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.8149695008011275E-006           OLP:   -1.8149695008011931E-006
  FINITE:
           OLP:   -1.7033111810850119E-004
           BORN:    5.8813769001173717E-004
  MOMENTA (Exyzm): 
           1   2197.6237780310939        0.0000000000000000        0.0000000000000000        2197.6237780310939        0.0000000000000000     
           2   2197.6237780310939       -0.0000000000000000       -0.0000000000000000       -2197.6237780310939        0.0000000000000000     
           3   2197.6237780310939       -1776.3004231156481       -1139.5387113565091        612.99151864179612        0.0000000000000000     
           4   2197.6237780310939        1776.3004231156481        1139.5387113565091       -612.99151864179612        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5698128285903353E-006           OLP:   -1.5698128285903351E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.8149695008011275E-006           OLP:   -1.8149695008011931E-006
 REAL 1: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.6250E-08  +/-  0.1070E-09  (   1.712 %)
Integral      = 0.3396E-08  +/-  0.1073E-09  (   3.158 %)
Virtual       = 0.3407E-10  +/-  0.1741E-10  (  51.084 %)
Virtual ratio = -.2910E+00  +/-  0.3695E-03  (   0.127 %)
ABS virtual   = 0.2972E-08  +/-  0.1695E-10  (   0.570 %)
Born          = 0.1684E-07  +/-  0.7779E-10  (   0.462 %)
V  2          = 0.3407E-10  +/-  0.1741E-10  (  51.084 %)
B  2          = 0.1684E-07  +/-  0.7779E-10  (   0.462 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6250E-08  +/-  0.1070E-09  (   1.712 %)
accumulated results Integral      = 0.3396E-08  +/-  0.1073E-09  (   3.158 %)
accumulated results Virtual       = 0.3407E-10  +/-  0.1741E-10  (  51.084 %)
accumulated results Virtual ratio = -.2910E+00  +/-  0.3695E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2972E-08  +/-  0.1695E-10  (   0.570 %)
accumulated results Born          = 0.1684E-07  +/-  0.7779E-10  (   0.462 %)
accumulated results V  2          = 0.3407E-10  +/-  0.1741E-10  (  51.084 %)
accumulated results B  2          = 0.1684E-07  +/-  0.7779E-10  (   0.462 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                         3                         4
channel    1 :     1 T   480762    11605  0.1156E-08  0.5955E-09  0.2080E+00
channel    2 :     1 T    16759    11053  0.1079E-08  0.5797E-09  0.9225E+00
channel    3 :     2 T    30988    21384  0.1961E-08  0.1041E-08  0.8311E+00
channel    4 :     2 T    31363    21494  0.2054E-08  0.1180E-08  0.9300E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.2504601379208105E-009  +/-   1.0702806050467747E-010
 Final result:   3.3963076473858366E-009  +/-   1.0725755761662782E-010
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363855
   Stability unknown:                                          0
   Stable PS point:                                       363855
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363855
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363855
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.59883761    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    4.31103706    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.67473078    
 Time spent in Integrated_CT :    10.0177002    
 Time spent in Virtuals :    593.015503    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.48329067    
 Time spent in N1body_prefactor :   0.845992327    
 Time spent in Adding_alphas_pdf :    6.27078629    
 Time spent in Reweight_scale :    33.3910713    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.6513901    
 Time spent in Applying_cuts :    6.13591766    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    46.4642792    
 Time spent in Other_tasks :    26.5895996    
 Time spent in Total :    758.450134    
Time in seconds: 830



LOG file for integration channel /P0_bxb_emep/all_G1_30, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        1914
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          30
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,  94710
  with seed                   49
 Ranmar initialization seeds         124       13896
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.441118D+04 0.441118D+04  1.00
 muF1, muF1_reference: 0.441118D+04 0.441118D+04  1.00
 muF2, muF2_reference: 0.441118D+04 0.441118D+04  1.00
 QES,  QES_reference:  0.441118D+04 0.441118D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4693694539348598E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4693694539348598E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.2241136091784866E-006           OLP:   -1.2241136091784868E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.2029076528868858E-006           OLP:   -1.2029076528869750E-006
  FINITE:
           OLP:   -1.2209745419921293E-004
           BORN:    4.5861986684149209E-004
  MOMENTA (Exyzm): 
           1   2205.5880190566595        0.0000000000000000        0.0000000000000000        2205.5880190566595        0.0000000000000000     
           2   2205.5880190566595       -0.0000000000000000       -0.0000000000000000       -2205.5880190566595        0.0000000000000000     
           3   2205.5880190566595       -1822.5983750668945       -860.19225140338847        896.00388594880860        0.0000000000000000     
           4   2205.5880190566595        1822.5983750668945        860.19225140338847       -896.00388594880860        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.2241136091784866E-006           OLP:   -1.2241136091784868E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -1.2029076528868858E-006           OLP:   -1.2029076528869750E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.6138E-08  +/-  0.3458E-10  (   0.563 %)
Integral      = 0.3268E-08  +/-  0.3527E-10  (   1.079 %)
Virtual       = -.2097E-10  +/-  0.1725E-10  (  82.285 %)
Virtual ratio = -.2921E+00  +/-  0.3685E-03  (   0.126 %)
ABS virtual   = 0.2928E-08  +/-  0.1680E-10  (   0.574 %)
Born          = 0.1681E-07  +/-  0.7784E-10  (   0.463 %)
V  2          = -.2097E-10  +/-  0.1725E-10  (  82.285 %)
B  2          = 0.1681E-07  +/-  0.7784E-10  (   0.463 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6138E-08  +/-  0.3458E-10  (   0.563 %)
accumulated results Integral      = 0.3268E-08  +/-  0.3527E-10  (   1.079 %)
accumulated results Virtual       = -.2097E-10  +/-  0.1725E-10  (  82.285 %)
accumulated results Virtual ratio = -.2921E+00  +/-  0.3685E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2928E-08  +/-  0.1680E-10  (   0.574 %)
accumulated results Born          = 0.1681E-07  +/-  0.7784E-10  (   0.463 %)
accumulated results V  2          = -.2097E-10  +/-  0.1725E-10  (  82.285 %)
accumulated results B  2          = 0.1681E-07  +/-  0.7784E-10  (   0.463 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                         3                        4
channel    1 :     1 T   481009    11605  0.1063E-08  0.4979E-09  0.8200E+00
channel    2 :     1 T    16583    11053  0.1075E-08  0.5856E-09  0.9102E+00
channel    3 :     2 T    31335    21384  0.2008E-08  0.1040E-08  0.8155E+00
channel    4 :     2 T    30946    21494  0.1992E-08  0.1144E-08  0.9548E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1375328559298842E-009  +/-   3.4583120369518772E-011
 Final result:   3.2678455486032227E-009  +/-   3.5273227043892833E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363984
   Stability unknown:                                          0
   Stable PS point:                                       363984
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363984
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363984
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.57876301    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    4.27428818    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.68610525    
 Time spent in Integrated_CT :    10.0520020    
 Time spent in Virtuals :    591.068298    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.46634007    
 Time spent in N1body_prefactor :   0.846241415    
 Time spent in Adding_alphas_pdf :    6.42242813    
 Time spent in Reweight_scale :    33.1029854    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.7646065    
 Time spent in Applying_cuts :    6.19584942    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    46.5974312    
 Time spent in Other_tasks :    26.6604004    
 Time spent in Total :    756.715759    
Time in seconds: 831



LOG file for integration channel /P0_bxb_emep/all_G1_31, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        1915
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          31
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 ,  97867
  with seed                   49
 Ranmar initialization seeds         124       17053
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.430177D+04 0.430177D+04  1.00
 muF1, muF1_reference: 0.430177D+04 0.430177D+04  1.00
 muF2, muF2_reference: 0.430177D+04 0.430177D+04  1.00
 QES,  QES_reference:  0.430177D+04 0.430177D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4870493954568948E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4870493954568948E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
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 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.3978957845191280E-006           OLP:   -1.3978957845191272E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5059706452124083E-006           OLP:   -1.5059706452125610E-006
  FINITE:
           OLP:   -1.4534586131603576E-004
           BORN:    5.2372816848649797E-004
  MOMENTA (Exyzm): 
           1   2150.8838382987692        0.0000000000000000        0.0000000000000000        2150.8838382987692        0.0000000000000000     
           2   2150.8838382987692       -0.0000000000000000       -0.0000000000000000       -2150.8838382987692        0.0000000000000000     
           3   2150.8838382987692       -1681.1009620052700       -1127.1852516452395        727.77348802581457        0.0000000000000000     
           4   2150.8838382987692        1681.1009620052700        1127.1852516452395       -727.77348802581457        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.3978957845191280E-006           OLP:   -1.3978957845191272E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5059706452124085E-006           OLP:   -1.5059706452125610E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 Error #15 in genps_fks.f  -1.1001247912645340E-006           4
ABS integral  = 0.6126E-08  +/-  0.3515E-10  (   0.574 %)
Integral      = 0.3267E-08  +/-  0.3582E-10  (   1.096 %)
Virtual       = 0.6947E-11  +/-  0.1759E-10  ( 253.152 %)
Virtual ratio = -.2913E+00  +/-  0.3688E-03  (   0.127 %)
ABS virtual   = 0.2937E-08  +/-  0.1714E-10  (   0.584 %)
Born          = 0.1680E-07  +/-  0.7765E-10  (   0.462 %)
V  2          = 0.6947E-11  +/-  0.1759E-10  ( 253.152 %)
B  2          = 0.1680E-07  +/-  0.7765E-10  (   0.462 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6126E-08  +/-  0.3515E-10  (   0.574 %)
accumulated results Integral      = 0.3267E-08  +/-  0.3582E-10  (   1.096 %)
accumulated results Virtual       = 0.6947E-11  +/-  0.1759E-10  ( 253.152 %)
accumulated results Virtual ratio = -.2913E+00  +/-  0.3688E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2937E-08  +/-  0.1714E-10  (   0.584 %)
accumulated results Born          = 0.1680E-07  +/-  0.7765E-10  (   0.462 %)
accumulated results V  2          = 0.6947E-11  +/-  0.1759E-10  ( 253.152 %)
accumulated results B  2          = 0.1680E-07  +/-  0.7765E-10  (   0.462 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                      1                                            2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   481108    11605  0.1056E-08  0.4933E-09  0.8801E+00
channel    2 :     1 T    16635    11053  0.1059E-08  0.5658E-09  0.9485E+00
channel    3 :     2 T    31172    21384  0.1992E-08  0.1030E-08  0.7950E+00
channel    4 :     2 T    30957    21494  0.2019E-08  0.1178E-08  0.9558E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1260294680365202E-009  +/-   3.5146973603258750E-011
 Final result:   3.2672572549597870E-009  +/-   3.5822799710824178E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363723
   Stability unknown:                                          0
   Stable PS point:                                       363723
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363723
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363723
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.58633292    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    4.28558540    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.66009426    
 Time spent in Integrated_CT :    10.1575928    
 Time spent in Virtuals :    594.774048    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.49192429    
 Time spent in N1body_prefactor :   0.865452349    
 Time spent in Adding_alphas_pdf :    6.38778591    
 Time spent in Reweight_scale :    33.3953438    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.6802673    
 Time spent in Applying_cuts :    6.10970974    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    46.7099609    
 Time spent in Other_tasks :    26.8175049    
 Time spent in Total :    760.921570    
Time in seconds: 831



LOG file for integration channel /P0_bxb_emep/all_G1_32, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        1913
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          32
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 101024
  with seed                   49
 Ranmar initialization seeds         124       20210
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.413389D+04 0.413389D+04  1.00
 muF1, muF1_reference: 0.413389D+04 0.413389D+04  1.00
 muF2, muF2_reference: 0.413389D+04 0.413389D+04  1.00
 QES,  QES_reference:  0.413389D+04 0.413389D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5152386769159987E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5152386769159987E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7408069418173326E-006           OLP:   -1.7408069418173326E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1321892981949442E-006           OLP:   -2.1321892981950306E-006
  FINITE:
           OLP:   -1.8518886138912700E-004
           BORN:    6.5220143119624520E-004
  MOMENTA (Exyzm): 
           1   2066.9430275171781        0.0000000000000000        0.0000000000000000        2066.9430275171781        0.0000000000000000     
           2   2066.9430275171781       -0.0000000000000000       -0.0000000000000000       -2066.9430275171781        0.0000000000000000     
           3   2066.9430275171781       -1012.3341093296739       -1740.8135530192021        465.83398728971588        0.0000000000000000     
           4   2066.9430275171781        1012.3341093296739        1740.8135530192021       -465.83398728971588        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7408069418173326E-006           OLP:   -1.7408069418173326E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -2.1321892981949438E-006           OLP:   -2.1321892981950306E-006
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 Error #15 in genps_fks.f  -1.0123476386070251E-006           4
ABS integral  = 0.6124E-08  +/-  0.3818E-10  (   0.623 %)
Integral      = 0.3250E-08  +/-  0.3880E-10  (   1.194 %)
Virtual       = -.3277E-11  +/-  0.1741E-10  ( 531.336 %)
Virtual ratio = -.2916E+00  +/-  0.3689E-03  (   0.127 %)
ABS virtual   = 0.2946E-08  +/-  0.1696E-10  (   0.576 %)
Born          = 0.1684E-07  +/-  0.7801E-10  (   0.463 %)
V  2          = -.3277E-11  +/-  0.1741E-10  ( 531.336 %)
B  2          = 0.1684E-07  +/-  0.7801E-10  (   0.463 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6124E-08  +/-  0.3818E-10  (   0.623 %)
accumulated results Integral      = 0.3250E-08  +/-  0.3880E-10  (   1.194 %)
accumulated results Virtual       = -.3277E-11  +/-  0.1741E-10  ( 531.336 %)
accumulated results Virtual ratio = -.2916E+00  +/-  0.3689E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2946E-08  +/-  0.1696E-10  (   0.576 %)
accumulated results Born          = 0.1684E-07  +/-  0.7801E-10  (   0.463 %)
accumulated results V  2          = -.3277E-11  +/-  0.1741E-10  ( 531.336 %)
accumulated results B  2          = 0.1684E-07  +/-  0.7801E-10  (   0.463 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                         3                        4
channel    1 :     1 T   481070    11605  0.1059E-08  0.5006E-09  0.9014E+00
channel    2 :     1 T    16724    11053  0.1082E-08  0.5851E-09  0.9088E+00
channel    3 :     2 T    30994    21384  0.2013E-08  0.1024E-08  0.6510E+00
channel    4 :     2 T    31082    21494  0.1969E-08  0.1140E-08  0.9645E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1235112436511080E-009  +/-   3.8175408985766545E-011
 Final result:   3.2501210290856248E-009  +/-   3.8800379639860067E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363803
   Stability unknown:                                          0
   Stable PS point:                                       363803
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363803
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363803
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.58928704    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    4.28620911    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.64845800    
 Time spent in Integrated_CT :    9.95434570    
 Time spent in Virtuals :    590.712158    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.49250221    
 Time spent in N1body_prefactor :   0.858785570    
 Time spent in Adding_alphas_pdf :    6.21542311    
 Time spent in Reweight_scale :    33.2595406    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.4392929    
 Time spent in Applying_cuts :    6.05393887    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    47.1136169    
 Time spent in Other_tasks :    26.5762939    
 Time spent in Total :    756.199707    
Time in seconds: 830



LOG file for integration channel /P0_bxb_emep/all_G1_33, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        1916
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          33
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 104181
  with seed                   49
 Ranmar initialization seeds         124       23367
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.430456D+04 0.430456D+04  1.00
 muF1, muF1_reference: 0.430456D+04 0.430456D+04  1.00
 muF2, muF2_reference: 0.430456D+04 0.430456D+04  1.00
 QES,  QES_reference:  0.430456D+04 0.430456D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4865908086802324E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4769436050229399E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4810778965758441E-006           OLP:   -1.4810778965758439E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6542648332539515E-006           OLP:   -1.6542648332540008E-006
  FINITE:
           OLP:   -1.5793922082877915E-004
           BORN:    5.5489273431519358E-004
  MOMENTA (Exyzm): 
           1   2181.9537142831123        0.0000000000000000        0.0000000000000000        2181.9537142831123        0.0000000000000000     
           2   2181.9537142831123       -0.0000000000000000       -0.0000000000000000       -2181.9537142831123        0.0000000000000000     
           3   2181.9537142831123       -1106.4563401247322       -1755.7551513159228        673.79538978777066        0.0000000000000000     
           4   2181.9537142831123        1106.4563401247322        1755.7551513159228       -673.79538978777066        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4810778965758441E-006           OLP:   -1.4810778965758439E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6542648332539511E-006           OLP:   -1.6542648332540008E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.6146E-08  +/-  0.4043E-10  (   0.658 %)
Integral      = 0.3266E-08  +/-  0.4102E-10  (   1.256 %)
Virtual       = 0.5927E-11  +/-  0.1684E-10  ( 284.166 %)
Virtual ratio = -.2912E+00  +/-  0.3698E-03  (   0.127 %)
ABS virtual   = 0.2929E-08  +/-  0.1638E-10  (   0.559 %)
Born          = 0.1673E-07  +/-  0.7846E-10  (   0.469 %)
V  2          = 0.5927E-11  +/-  0.1684E-10  ( 284.166 %)
B  2          = 0.1673E-07  +/-  0.7846E-10  (   0.469 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6146E-08  +/-  0.4043E-10  (   0.658 %)
accumulated results Integral      = 0.3266E-08  +/-  0.4102E-10  (   1.256 %)
accumulated results Virtual       = 0.5927E-11  +/-  0.1684E-10  ( 284.166 %)
accumulated results Virtual ratio = -.2912E+00  +/-  0.3698E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2929E-08  +/-  0.1638E-10  (   0.559 %)
accumulated results Born          = 0.1673E-07  +/-  0.7846E-10  (   0.469 %)
accumulated results V  2          = 0.5927E-11  +/-  0.1684E-10  ( 284.166 %)
accumulated results B  2          = 0.1673E-07  +/-  0.7846E-10  (   0.469 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   481298    11605  0.1061E-08  0.4992E-09  0.8704E+00
channel    2 :     1 T    16406    11053  0.1083E-08  0.5598E-09  0.5972E+00
channel    3 :     2 T    30990    21384  0.1998E-08  0.1053E-08  0.7969E+00
channel    4 :     2 T    31176    21494  0.2005E-08  0.1154E-08  0.8737E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1464898325671362E-009  +/-   4.0426857981877421E-011
 Final result:   3.2657526889347643E-009  +/-   4.1021459312360983E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363756
   Stability unknown:                                          0
   Stable PS point:                                       363756
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363756
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363756
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.58287001    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    4.26404095    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.56836224    
 Time spent in Integrated_CT :    9.90228271    
 Time spent in Virtuals :    595.499329    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.43688583    
 Time spent in N1body_prefactor :   0.852304518    
 Time spent in Adding_alphas_pdf :    6.27948761    
 Time spent in Reweight_scale :    33.1416206    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    16.5615540    
 Time spent in Applying_cuts :    6.05884981    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    46.5499191    
 Time spent in Other_tasks :    26.2014771    
 Time spent in Total :    759.898987    
Time in seconds: 831



LOG file for integration channel /P0_bxb_emep/all_G1_34, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6743
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          34
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 107338
  with seed                   49
 Ranmar initialization seeds         124       26524
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.433018D+04 0.433018D+04  1.00
 muF1, muF1_reference: 0.433018D+04 0.433018D+04  1.00
 muF2, muF2_reference: 0.433018D+04 0.433018D+04  1.00
 QES,  QES_reference:  0.433018D+04 0.433018D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4824073595095894E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4824073595095894E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6591284938416590E-006           OLP:   -1.6591284938416592E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.9794175014949958E-006           OLP:   -1.9794175014950381E-006
  FINITE:
           OLP:   -1.8018856184710103E-004
           BORN:    6.2160022012110443E-004
  MOMENTA (Exyzm): 
           1   2165.0902632956345        0.0000000000000000        0.0000000000000000        2165.0902632956345        0.0000000000000000     
           2   2165.0902632956345       -0.0000000000000000       -0.0000000000000000       -2165.0902632956345        0.0000000000000000     
           3   2165.0902632956345       -903.44376935333332       -1891.4517926931023        542.04734087739121        0.0000000000000000     
           4   2165.0902632956345        903.44376935333332        1891.4517926931023       -542.04734087739121        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6591284938416590E-006           OLP:   -1.6591284938416592E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.9794175014949954E-006           OLP:   -1.9794175014950381E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.6132E-08  +/-  0.3637E-10  (   0.593 %)
Integral      = 0.3207E-08  +/-  0.3704E-10  (   1.155 %)
Virtual       = -.2345E-11  +/-  0.1710E-10  ( 729.366 %)
Virtual ratio = -.2912E+00  +/-  0.3697E-03  (   0.127 %)
ABS virtual   = 0.2929E-08  +/-  0.1665E-10  (   0.568 %)
Born          = 0.1673E-07  +/-  0.7765E-10  (   0.464 %)
V  2          = -.2345E-11  +/-  0.1710E-10  ( 729.366 %)
B  2          = 0.1673E-07  +/-  0.7765E-10  (   0.464 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6132E-08  +/-  0.3637E-10  (   0.593 %)
accumulated results Integral      = 0.3207E-08  +/-  0.3704E-10  (   1.155 %)
accumulated results Virtual       = -.2345E-11  +/-  0.1710E-10  ( 729.366 %)
accumulated results Virtual ratio = -.2912E+00  +/-  0.3697E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2929E-08  +/-  0.1665E-10  (   0.568 %)
accumulated results Born          = 0.1673E-07  +/-  0.7765E-10  (   0.464 %)
accumulated results V  2          = -.2345E-11  +/-  0.1710E-10  ( 729.366 %)
accumulated results B  2          = 0.1673E-07  +/-  0.7765E-10  (   0.464 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                         3                        4
channel    1 :     1 T   481508    11605  0.1062E-08  0.4996E-09  0.8551E+00
channel    2 :     1 T    16605    11053  0.1066E-08  0.5780E-09  0.9395E+00
channel    3 :     2 T    30596    21384  0.2025E-08  0.9849E-09  0.6930E+00
channel    4 :     2 T    31162    21494  0.1979E-08  0.1144E-08  0.9507E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1320526540668163E-009  +/-   3.6371470823134428E-011
 Final result:   3.2068226264632559E-009  +/-   3.7036169153751712E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363435
   Stability unknown:                                          0
   Stable PS point:                                       363435
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363435
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363435
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.47734463    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.74691963    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.40363121    
 Time spent in Integrated_CT :    9.62432861    
 Time spent in Virtuals :    564.421570    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.83400249    
 Time spent in N1body_prefactor :   0.817042828    
 Time spent in Adding_alphas_pdf :    5.89245605    
 Time spent in Reweight_scale :    32.3043709    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.1419010    
 Time spent in Applying_cuts :    5.60164404    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.9348946    
 Time spent in Other_tasks :    24.1649780    
 Time spent in Total :    712.364990    
Time in seconds: 782



LOG file for integration channel /P0_bxb_emep/all_G1_35, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6749
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          35
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 110495
  with seed                   49
 Ranmar initialization seeds         124       29681
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.433238D+04 0.433238D+04  1.00
 muF1, muF1_reference: 0.433238D+04 0.433238D+04  1.00
 muF2, muF2_reference: 0.433238D+04 0.433238D+04  1.00
 QES,  QES_reference:  0.433238D+04 0.433238D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4820487620455539E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4820487620455539E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8539225325646795E-006           OLP:   -1.8539225325646806E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.3478024656196251E-006           OLP:   -2.3478024656196611E-006
  FINITE:
           OLP:   -2.0358377318300283E-004
           BORN:    6.9458071427689000E-004
  MOMENTA (Exyzm): 
           1   2166.1923155516733        0.0000000000000000        0.0000000000000000        2166.1923155516733        0.0000000000000000     
           2   2166.1923155516733       -0.0000000000000000       -0.0000000000000000       -2166.1923155516733        0.0000000000000000     
           3   2166.1923155516733       -2125.7221097991528       -16.426495635021439        416.44306946725862        0.0000000000000000     
           4   2166.1923155516733        2125.7221097991528        16.426495635021439       -416.44306946725862        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8539225325646795E-006           OLP:   -1.8539225325646806E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.3478024656196247E-006           OLP:   -2.3478024656196611E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
ABS integral  = 0.6149E-08  +/-  0.3528E-10  (   0.574 %)
Integral      = 0.3249E-08  +/-  0.3596E-10  (   1.107 %)
Virtual       = -.1245E-10  +/-  0.1669E-10  ( 134.036 %)
Virtual ratio = -.2913E+00  +/-  0.3697E-03  (   0.127 %)
ABS virtual   = 0.2929E-08  +/-  0.1623E-10  (   0.554 %)
Born          = 0.1675E-07  +/-  0.7642E-10  (   0.456 %)
V  2          = -.1245E-10  +/-  0.1669E-10  ( 134.036 %)
B  2          = 0.1675E-07  +/-  0.7642E-10  (   0.456 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6149E-08  +/-  0.3528E-10  (   0.574 %)
accumulated results Integral      = 0.3249E-08  +/-  0.3596E-10  (   1.107 %)
accumulated results Virtual       = -.1245E-10  +/-  0.1669E-10  ( 134.036 %)
accumulated results Virtual ratio = -.2913E+00  +/-  0.3697E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2929E-08  +/-  0.1623E-10  (   0.554 %)
accumulated results Born          = 0.1675E-07  +/-  0.7642E-10  (   0.456 %)
accumulated results V  2          = -.1245E-10  +/-  0.1669E-10  ( 134.036 %)
accumulated results B  2          = 0.1675E-07  +/-  0.7642E-10  (   0.456 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   480939    11605  0.1062E-08  0.4998E-09  0.8120E+00
channel    2 :     1 T    16660    11053  0.1071E-08  0.5755E-09  0.8999E+00
channel    3 :     2 T    31299    21384  0.2017E-08  0.1010E-08  0.7379E+00
channel    4 :     2 T    30973    21494  0.1998E-08  0.1164E-08  0.9267E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1488604340959104E-009  +/-   3.5281276282346011E-011
 Final result:   3.2486619433856451E-009  +/-   3.5964547193414588E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363411
   Stability unknown:                                          0
   Stable PS point:                                       363411
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363411
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363411
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.48947716    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.71858931    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.43155527    
 Time spent in Integrated_CT :    9.76055908    
 Time spent in Virtuals :    566.853882    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.84920359    
 Time spent in N1body_prefactor :   0.756022513    
 Time spent in Adding_alphas_pdf :    5.95131636    
 Time spent in Reweight_scale :    32.3366623    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.1218071    
 Time spent in Applying_cuts :    5.55446529    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.0055847    
 Time spent in Other_tasks :    23.9927368    
 Time spent in Total :    714.821838    
Time in seconds: 783



LOG file for integration channel /P0_bxb_emep/all_G1_36, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6755
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          36
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 113652
  with seed                   49
 Ranmar initialization seeds         124        2757
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.442451D+04 0.442451D+04  1.00
 muF1, muF1_reference: 0.442451D+04 0.442451D+04  1.00
 muF2, muF2_reference: 0.442451D+04 0.442451D+04  1.00
 QES,  QES_reference:  0.442451D+04 0.442451D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4672509247655602E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4672509247655602E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5281094917482349E-006           OLP:   -1.5281094917482372E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7391232373479752E-006           OLP:   -1.7391232373479505E-006
  FINITE:
           OLP:   -1.6549461971370974E-004
           BORN:    5.7251334056740281E-004
  MOMENTA (Exyzm): 
           1   2212.2530936816233        0.0000000000000000        0.0000000000000000        2212.2530936816233        0.0000000000000000     
           2   2212.2530936816233       -0.0000000000000000       -0.0000000000000000       -2212.2530936816233        0.0000000000000000     
           3   2212.2530936816233       -2076.0034573643102       -405.93393484490440        647.68127659881964        0.0000000000000000     
           4   2212.2530936816233        2076.0034573643102        405.93393484490440       -647.68127659881964        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5281094917482349E-006           OLP:   -1.5281094917482372E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7391232373479752E-006           OLP:   -1.7391232373479505E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
ABS integral  = 0.6063E-08  +/-  0.3562E-10  (   0.588 %)
Integral      = 0.3222E-08  +/-  0.3628E-10  (   1.126 %)
Virtual       = 0.5077E-12  +/-  0.1681E-10  ( ******* %)
Virtual ratio = -.2907E+00  +/-  0.3696E-03  (   0.127 %)
ABS virtual   = 0.2887E-08  +/-  0.1636E-10  (   0.567 %)
Born          = 0.1651E-07  +/-  0.7647E-10  (   0.463 %)
V  2          = 0.5077E-12  +/-  0.1681E-10  ( ******* %)
B  2          = 0.1651E-07  +/-  0.7647E-10  (   0.463 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6063E-08  +/-  0.3562E-10  (   0.588 %)
accumulated results Integral      = 0.3222E-08  +/-  0.3628E-10  (   1.126 %)
accumulated results Virtual       = 0.5077E-12  +/-  0.1681E-10  ( ******* %)
accumulated results Virtual ratio = -.2907E+00  +/-  0.3696E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2887E-08  +/-  0.1636E-10  (   0.567 %)
accumulated results Born          = 0.1651E-07  +/-  0.7647E-10  (   0.463 %)
accumulated results V  2          = 0.5077E-12  +/-  0.1681E-10  ( ******* %)
accumulated results B  2          = 0.1651E-07  +/-  0.7647E-10  (   0.463 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                   2                         3                        4
channel    1 :     1 T   481639    11605  0.1064E-08  0.5025E-09  0.8710E+00
channel    2 :     1 T    16498    11053  0.1069E-08  0.5821E-09  0.8792E+00
channel    3 :     2 T    30877    21384  0.1979E-08  0.1040E-08  0.8092E+00
channel    4 :     2 T    30858    21494  0.1952E-08  0.1098E-08  0.8546E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0627896652437883E-009  +/-   3.5622819753799424E-011
 Final result:   3.2223864639498557E-009  +/-   3.6277980198544957E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363819
   Stability unknown:                                          0
   Stable PS point:                                       363819
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363819
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363819
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.48902237    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.77811217    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.40697002    
 Time spent in Integrated_CT :    9.65698242    
 Time spent in Virtuals :    563.694153    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.96041679    
 Time spent in N1body_prefactor :   0.776293516    
 Time spent in Adding_alphas_pdf :    5.90065289    
 Time spent in Reweight_scale :    32.5788345    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.4328508    
 Time spent in Applying_cuts :    5.61793089    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.1457901    
 Time spent in Other_tasks :    24.5707397    
 Time spent in Total :    713.008789    
Time in seconds: 782



LOG file for integration channel /P0_bxb_emep/all_G1_37, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6750
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          37
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 116809
  with seed                   49
 Ranmar initialization seeds         124        5914
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.431101D+04 0.431101D+04  1.00
 muF1, muF1_reference: 0.431101D+04 0.431101D+04  1.00
 muF2, muF2_reference: 0.431101D+04 0.431101D+04  1.00
 QES,  QES_reference:  0.431101D+04 0.431101D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4855361691869307E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4855361691869307E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7803550917286994E-006           OLP:   -1.7803550917286986E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2070957822044032E-006           OLP:   -2.2070957822043265E-006
  FINITE:
           OLP:   -1.9442188216729919E-004
           BORN:    6.6701832981593359E-004
  MOMENTA (Exyzm): 
           1   2155.5027623050169        0.0000000000000000        0.0000000000000000        2155.5027623050169        0.0000000000000000     
           2   2155.5027623050169       -0.0000000000000000       -0.0000000000000000       -2155.5027623050169        0.0000000000000000     
           3   2155.5027623050169       -1520.2601763112968       -1457.0705516160463        460.37654397222798        0.0000000000000000     
           4   2155.5027623050169        1520.2601763112968        1457.0705516160463       -460.37654397222798        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7803550917286994E-006           OLP:   -1.7803550917286986E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2070957822044032E-006           OLP:   -2.2070957822043265E-006
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.6059E-08  +/-  0.3354E-10  (   0.554 %)
Integral      = 0.3229E-08  +/-  0.3424E-10  (   1.060 %)
Virtual       = -.4339E-10  +/-  0.1670E-10  (  38.495 %)
Virtual ratio = -.2912E+00  +/-  0.3688E-03  (   0.127 %)
ABS virtual   = 0.2910E-08  +/-  0.1625E-10  (   0.558 %)
Born          = 0.1675E-07  +/-  0.7640E-10  (   0.456 %)
V  2          = -.4339E-10  +/-  0.1670E-10  (  38.495 %)
B  2          = 0.1675E-07  +/-  0.7640E-10  (   0.456 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6059E-08  +/-  0.3354E-10  (   0.554 %)
accumulated results Integral      = 0.3229E-08  +/-  0.3424E-10  (   1.060 %)
accumulated results Virtual       = -.4339E-10  +/-  0.1670E-10  (  38.495 %)
accumulated results Virtual ratio = -.2912E+00  +/-  0.3688E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2910E-08  +/-  0.1625E-10  (   0.558 %)
accumulated results Born          = 0.1675E-07  +/-  0.7640E-10  (   0.456 %)
accumulated results V  2          = -.4339E-10  +/-  0.1670E-10  (  38.495 %)
accumulated results B  2          = 0.1675E-07  +/-  0.7640E-10  (   0.456 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                         3                         4
channel    1 :     1 T   481253    11605  0.1060E-08  0.4983E-09  0.8834E+00
channel    2 :     1 T    16764    11053  0.1051E-08  0.5686E-09  0.9255E+00
channel    3 :     2 T    31178    21384  0.1995E-08  0.1028E-08  0.8009E+00
channel    4 :     2 T    30677    21494  0.1953E-08  0.1134E-08  0.9545E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0593608368674233E-009  +/-   3.3542379311931649E-011
 Final result:   3.2285643914851897E-009  +/-   3.4235250064131346E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363679
   Stability unknown:                                          0
   Stable PS point:                                       363679
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363679
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363679
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.48142815    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.75545454    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.42343140    
 Time spent in Integrated_CT :    9.62780762    
 Time spent in Virtuals :    563.134705    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.93013144    
 Time spent in N1body_prefactor :   0.797450662    
 Time spent in Adding_alphas_pdf :    6.01449490    
 Time spent in Reweight_scale :    32.8147469    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.3077230    
 Time spent in Applying_cuts :    5.74179220    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.1299133    
 Time spent in Other_tasks :    24.2520752    
 Time spent in Total :    712.411133    
Time in seconds: 782



LOG file for integration channel /P0_bxb_emep/all_G1_38, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6744
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          38
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 119966
  with seed                   49
 Ranmar initialization seeds         124        9071
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.441337D+04 0.441337D+04  1.00
 muF1, muF1_reference: 0.441337D+04 0.441337D+04  1.00
 muF2, muF2_reference: 0.441337D+04 0.441337D+04  1.00
 QES,  QES_reference:  0.441337D+04 0.441337D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4690209840728980E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4690209840728980E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7890922779849233E-006           OLP:   -1.7890922779849229E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2237378813955047E-006           OLP:   -2.2237378813955086E-006
  FINITE:
           OLP:   -1.9807845272957282E-004
           BORN:    6.7029175735350320E-004
  MOMENTA (Exyzm): 
           1   2206.6826780376632        0.0000000000000000        0.0000000000000000        2206.6826780376632        0.0000000000000000     
           2   2206.6826780376632       -0.0000000000000000       -0.0000000000000000       -2206.6826780376632        0.0000000000000000     
           3   2206.6826780376632       -1721.1822375477693       -1300.0741162941169        465.60438018085460        0.0000000000000000     
           4   2206.6826780376632        1721.1822375477693        1300.0741162941169       -465.60438018085460        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7890922779849233E-006           OLP:   -1.7890922779849229E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2237378813955047E-006           OLP:   -2.2237378813955086E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6094E-08  +/-  0.3445E-10  (   0.565 %)
Integral      = 0.3212E-08  +/-  0.3514E-10  (   1.094 %)
Virtual       = -.1786E-10  +/-  0.1671E-10  (  93.547 %)
Virtual ratio = -.2922E+00  +/-  0.3690E-03  (   0.126 %)
ABS virtual   = 0.2927E-08  +/-  0.1625E-10  (   0.555 %)
Born          = 0.1678E-07  +/-  0.7691E-10  (   0.458 %)
V  2          = -.1786E-10  +/-  0.1671E-10  (  93.547 %)
B  2          = 0.1678E-07  +/-  0.7691E-10  (   0.458 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6094E-08  +/-  0.3445E-10  (   0.565 %)
accumulated results Integral      = 0.3212E-08  +/-  0.3514E-10  (   1.094 %)
accumulated results Virtual       = -.1786E-10  +/-  0.1671E-10  (  93.547 %)
accumulated results Virtual ratio = -.2922E+00  +/-  0.3690E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2927E-08  +/-  0.1625E-10  (   0.555 %)
accumulated results Born          = 0.1678E-07  +/-  0.7691E-10  (   0.458 %)
accumulated results V  2          = -.1786E-10  +/-  0.1671E-10  (  93.547 %)
accumulated results B  2          = 0.1678E-07  +/-  0.7691E-10  (   0.458 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                   2                         3                        4
channel    1 :     1 T   481142    11605  0.1058E-08  0.4995E-09  0.8814E+00
channel    2 :     1 T    16657    11053  0.1040E-08  0.5448E-09  0.9400E+00
channel    3 :     2 T    30934    21384  0.1996E-08  0.1033E-08  0.7590E+00
channel    4 :     2 T    31140    21494  0.2000E-08  0.1135E-08  0.9361E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0940507875148811E-009  +/-   3.4451696174569157E-011
 Final result:   3.2117994316784505E-009  +/-   3.5140096611400964E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363133
   Stability unknown:                                          0
   Stable PS point:                                       363133
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363133
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363133
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.48976767    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.75276756    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.39361906    
 Time spent in Integrated_CT :    9.70989990    
 Time spent in Virtuals :    564.010315    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.84480476    
 Time spent in N1body_prefactor :   0.786339045    
 Time spent in Adding_alphas_pdf :    5.99437332    
 Time spent in Reweight_scale :    32.6470718    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.1452951    
 Time spent in Applying_cuts :    5.65846205    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.9982224    
 Time spent in Other_tasks :    24.2429199    
 Time spent in Total :    712.673889    
Time in seconds: 782



LOG file for integration channel /P0_bxb_emep/all_G1_39, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6767
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          39
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 123123
  with seed                   49
 Ranmar initialization seeds         124       12228
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.414705D+04 0.414705D+04  1.00
 muF1, muF1_reference: 0.414705D+04 0.414705D+04  1.00
 muF2, muF2_reference: 0.414705D+04 0.414705D+04  1.00
 QES,  QES_reference:  0.414705D+04 0.414705D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5129792359396985E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5129792359396985E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6766501837473939E-006           OLP:   -1.6766501837473937E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0119474965075194E-006           OLP:   -2.0119474965076739E-006
  FINITE:
           OLP:   -1.7788685217769360E-004
           BORN:    6.2816480287809133E-004
  MOMENTA (Exyzm): 
           1   2073.5263734641339        0.0000000000000000        0.0000000000000000        2073.5263734641339        0.0000000000000000     
           2   2073.5263734641339       -0.0000000000000000       -0.0000000000000000       -2073.5263734641339        0.0000000000000000     
           3   2073.5263734641339       -1126.0123900259343       -1665.4334762986352        507.87700773243250        0.0000000000000000     
           4   2073.5263734641339        1126.0123900259343        1665.4334762986352       -507.87700773243250        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6766501837473939E-006           OLP:   -1.6766501837473937E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0119474965075194E-006           OLP:   -2.0119474965076739E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6145E-08  +/-  0.3419E-10  (   0.556 %)
Integral      = 0.3245E-08  +/-  0.3489E-10  (   1.075 %)
Virtual       = -.1543E-10  +/-  0.1701E-10  ( 110.252 %)
Virtual ratio = -.2917E+00  +/-  0.3691E-03  (   0.127 %)
ABS virtual   = 0.2949E-08  +/-  0.1654E-10  (   0.561 %)
Born          = 0.1686E-07  +/-  0.7786E-10  (   0.462 %)
V  2          = -.1543E-10  +/-  0.1701E-10  ( 110.252 %)
B  2          = 0.1686E-07  +/-  0.7786E-10  (   0.462 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6145E-08  +/-  0.3419E-10  (   0.556 %)
accumulated results Integral      = 0.3245E-08  +/-  0.3489E-10  (   1.075 %)
accumulated results Virtual       = -.1543E-10  +/-  0.1701E-10  ( 110.252 %)
accumulated results Virtual ratio = -.2917E+00  +/-  0.3691E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2949E-08  +/-  0.1654E-10  (   0.561 %)
accumulated results Born          = 0.1686E-07  +/-  0.7786E-10  (   0.462 %)
accumulated results V  2          = -.1543E-10  +/-  0.1701E-10  ( 110.252 %)
accumulated results B  2          = 0.1686E-07  +/-  0.7786E-10  (   0.462 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                         3                         4
channel    1 :     1 T   480879    11605  0.1059E-08  0.4982E-09  0.8849E+00
channel    2 :     1 T    16998    11053  0.1089E-08  0.5704E-09  0.9182E+00
channel    3 :     2 T    30770    21384  0.1967E-08  0.1003E-08  0.8078E+00
channel    4 :     2 T    31221    21494  0.2029E-08  0.1173E-08  0.9486E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1447203985007029E-009  +/-   3.4185161395791349E-011
 Final result:   3.2454603245759146E-009  +/-   3.4889134249172462E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363600
   Stability unknown:                                          0
   Stable PS point:                                       363600
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363600
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363600
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.51034033    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.78621960    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.47327852    
 Time spent in Integrated_CT :    9.67260742    
 Time spent in Virtuals :    563.733948    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.92997074    
 Time spent in N1body_prefactor :   0.772969246    
 Time spent in Adding_alphas_pdf :    5.94944000    
 Time spent in Reweight_scale :    32.6313324    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.7347851    
 Time spent in Applying_cuts :    6.02888966    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.2688713    
 Time spent in Other_tasks :    24.4425049    
 Time spent in Total :    713.935181    
Time in seconds: 783



LOG file for integration channel /P0_bxb_emep/all_G1_40, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6742
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          40
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 126280
  with seed                   49
 Ranmar initialization seeds         124       15385
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.438156D+04 0.438156D+04  1.00
 muF1, muF1_reference: 0.438156D+04 0.438156D+04  1.00
 muF2, muF2_reference: 0.438156D+04 0.438156D+04  1.00
 QES,  QES_reference:  0.438156D+04 0.438156D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4741035544889353E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 REAL 1: keeping split order            1
 alpha_s value used for the virtuals is (for the first PS point):    7.4815382646150438E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.2760224823203618E-006           OLP:   -1.2760224823203624E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.2925648835732235E-006           OLP:   -1.2925648835731460E-006
  FINITE:
           OLP:   -1.2859217037341613E-004
           BORN:    4.7806776800827632E-004
  MOMENTA (Exyzm): 
           1   2167.7623345308011        0.0000000000000000        0.0000000000000000        2167.7623345308011        0.0000000000000000     
           2   2167.7623345308011       -0.0000000000000000       -0.0000000000000000       -2167.7623345308011        0.0000000000000000     
           3   2167.7623345308011       -1180.0952023997586       -1615.6098137491488        834.49013295601230        0.0000000000000000     
           4   2167.7623345308011        1180.0952023997586        1615.6098137491488       -834.49013295601230        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.2760224823203618E-006           OLP:   -1.2760224823203624E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.2925648835732237E-006           OLP:   -1.2925648835731460E-006
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.6064E-08  +/-  0.3390E-10  (   0.559 %)
Integral      = 0.3176E-08  +/-  0.3460E-10  (   1.090 %)
Virtual       = -.2719E-11  +/-  0.1685E-10  ( 619.669 %)
Virtual ratio = -.2914E+00  +/-  0.3689E-03  (   0.127 %)
ABS virtual   = 0.2922E-08  +/-  0.1639E-10  (   0.561 %)
Born          = 0.1666E-07  +/-  0.7626E-10  (   0.458 %)
V  2          = -.2719E-11  +/-  0.1685E-10  ( 619.669 %)
B  2          = 0.1666E-07  +/-  0.7626E-10  (   0.458 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6064E-08  +/-  0.3390E-10  (   0.559 %)
accumulated results Integral      = 0.3176E-08  +/-  0.3460E-10  (   1.090 %)
accumulated results Virtual       = -.2719E-11  +/-  0.1685E-10  ( 619.669 %)
accumulated results Virtual ratio = -.2914E+00  +/-  0.3689E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2922E-08  +/-  0.1639E-10  (   0.561 %)
accumulated results Born          = 0.1666E-07  +/-  0.7626E-10  (   0.458 %)
accumulated results V  2          = -.2719E-11  +/-  0.1685E-10  ( 619.669 %)
accumulated results B  2          = 0.1666E-07  +/-  0.7626E-10  (   0.458 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   481220    11605  0.1060E-08  0.4975E-09  0.8640E+00
channel    2 :     1 T    16705    11053  0.1055E-08  0.5773E-09  0.9425E+00
channel    3 :     2 T    30948    21384  0.1983E-08  0.9918E-09  0.8096E+00
channel    4 :     2 T    31001    21494  0.1966E-08  0.1109E-08  0.9274E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0641585185231537E-009  +/-   3.3904025990729908E-011
 Final result:   3.1755649322637749E-009  +/-   3.4599916796797957E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363766
   Stability unknown:                                          0
   Stable PS point:                                       363766
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363766
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363766
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.50430512    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.74876571    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.39558315    
 Time spent in Integrated_CT :    9.65167236    
 Time spent in Virtuals :    563.425598    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.87168407    
 Time spent in N1body_prefactor :   0.775802135    
 Time spent in Adding_alphas_pdf :    5.94081926    
 Time spent in Reweight_scale :    32.3394623    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.4736061    
 Time spent in Applying_cuts :    5.59841347    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.0370483    
 Time spent in Other_tasks :    23.9689331    
 Time spent in Total :    711.731750    
Time in seconds: 782



LOG file for integration channel /P0_bxb_emep/all_G1_41, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6740
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          41
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 129437
  with seed                   49
 Ranmar initialization seeds         124       18542
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.443613D+04 0.443613D+04  1.00
 muF1, muF1_reference: 0.443613D+04 0.443613D+04  1.00
 muF2, muF2_reference: 0.443613D+04 0.443613D+04  1.00
 QES,  QES_reference:  0.443613D+04 0.443613D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4654099933727194E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4654099933727194E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.2773723845128008E-006           OLP:   -1.2773723845128031E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.2949319690704500E-006           OLP:   -1.2949319690704997E-006
  FINITE:
           OLP:   -1.3054459816434202E-004
           BORN:    4.7857351515388715E-004
  MOMENTA (Exyzm): 
           1   2218.0644500350336        0.0000000000000000        0.0000000000000000        2218.0644500350336        0.0000000000000000     
           2   2218.0644500350336       -0.0000000000000000       -0.0000000000000000       -2218.0644500350336        0.0000000000000000     
           3   2218.0644500350336       -1741.1960169079150       -1077.5354490439211        852.62165775151630        0.0000000000000000     
           4   2218.0644500350336        1741.1960169079150        1077.5354490439211       -852.62165775151630        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.2773723845128008E-006           OLP:   -1.2773723845128031E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.2949319690704500E-006           OLP:   -1.2949319690704997E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 Error #15 in genps_fks.f  -1.0132789611816406E-006           3
ABS integral  = 0.6113E-08  +/-  0.3462E-10  (   0.566 %)
Integral      = 0.3224E-08  +/-  0.3531E-10  (   1.095 %)
Virtual       = 0.4510E-11  +/-  0.1718E-10  ( 380.879 %)
Virtual ratio = -.2915E+00  +/-  0.3693E-03  (   0.127 %)
ABS virtual   = 0.2938E-08  +/-  0.1672E-10  (   0.569 %)
Born          = 0.1675E-07  +/-  0.7757E-10  (   0.463 %)
V  2          = 0.4510E-11  +/-  0.1718E-10  ( 380.879 %)
B  2          = 0.1675E-07  +/-  0.7757E-10  (   0.463 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6113E-08  +/-  0.3462E-10  (   0.566 %)
accumulated results Integral      = 0.3224E-08  +/-  0.3531E-10  (   1.095 %)
accumulated results Virtual       = 0.4510E-11  +/-  0.1718E-10  ( 380.879 %)
accumulated results Virtual ratio = -.2915E+00  +/-  0.3693E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2938E-08  +/-  0.1672E-10  (   0.569 %)
accumulated results Born          = 0.1675E-07  +/-  0.7757E-10  (   0.463 %)
accumulated results V  2          = 0.4510E-11  +/-  0.1718E-10  ( 380.879 %)
accumulated results B  2          = 0.1675E-07  +/-  0.7757E-10  (   0.463 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                         3                        4
channel    1 :     1 T   481238    11605  0.1058E-08  0.4949E-09  0.8522E+00
channel    2 :     1 T    16626    11053  0.1058E-08  0.5467E-09  0.8939E+00
channel    3 :     2 T    30779    21384  0.1991E-08  0.1052E-08  0.8274E+00
channel    4 :     2 T    31232    21494  0.2007E-08  0.1131E-08  0.9409E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1130424385636020E-009  +/-   3.4617804223091249E-011
 Final result:   3.2241125017906917E-009  +/-   3.5306825528474256E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363523
   Stability unknown:                                          0
   Stable PS point:                                       363523
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363523
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363523
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.49415541    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.75030088    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.40543556    
 Time spent in Integrated_CT :    9.63189697    
 Time spent in Virtuals :    564.172729    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.88474846    
 Time spent in N1body_prefactor :   0.787555218    
 Time spent in Adding_alphas_pdf :    5.98531055    
 Time spent in Reweight_scale :    32.8288574    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.3177052    
 Time spent in Applying_cuts :    5.64725828    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.0604668    
 Time spent in Other_tasks :    24.2268677    
 Time spent in Total :    713.193298    
Time in seconds: 783



LOG file for integration channel /P0_bxb_emep/all_G1_42, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6766
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          42
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 132594
  with seed                   49
 Ranmar initialization seeds         124       21699
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.411602D+04 0.411602D+04  1.00
 muF1, muF1_reference: 0.411602D+04 0.411602D+04  1.00
 muF2, muF2_reference: 0.411602D+04 0.411602D+04  1.00
 QES,  QES_reference:  0.411602D+04 0.411602D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5183187851413188E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5183187851413188E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7555663807563221E-006           OLP:   -1.7555663807563225E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1600506049495212E-006           OLP:   -2.1600506049494653E-006
  FINITE:
           OLP:   -1.8644975378998539E-004
           BORN:    6.5773112375917418E-004
  MOMENTA (Exyzm): 
           1   2058.0083519791478        0.0000000000000000        0.0000000000000000        2058.0083519791478        0.0000000000000000     
           2   2058.0083519791478       -0.0000000000000000       -0.0000000000000000       -2058.0083519791478        0.0000000000000000     
           3   2058.0083519791478       -1292.7042966291763       -1535.4238964923791        454.73886613369115        0.0000000000000000     
           4   2058.0083519791478        1292.7042966291763        1535.4238964923791       -454.73886613369115        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7555663807563221E-006           OLP:   -1.7555663807563225E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1600506049495208E-006           OLP:   -2.1600506049494653E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
ABS integral  = 0.6101E-08  +/-  0.3556E-10  (   0.583 %)
Integral      = 0.3243E-08  +/-  0.3623E-10  (   1.117 %)
Virtual       = -.7162E-11  +/-  0.1699E-10  ( 237.215 %)
Virtual ratio = -.2917E+00  +/-  0.3695E-03  (   0.127 %)
ABS virtual   = 0.2915E-08  +/-  0.1654E-10  (   0.567 %)
Born          = 0.1669E-07  +/-  0.7674E-10  (   0.460 %)
V  2          = -.7162E-11  +/-  0.1699E-10  ( 237.215 %)
B  2          = 0.1669E-07  +/-  0.7674E-10  (   0.460 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6101E-08  +/-  0.3556E-10  (   0.583 %)
accumulated results Integral      = 0.3243E-08  +/-  0.3623E-10  (   1.117 %)
accumulated results Virtual       = -.7162E-11  +/-  0.1699E-10  ( 237.215 %)
accumulated results Virtual ratio = -.2917E+00  +/-  0.3695E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2915E-08  +/-  0.1654E-10  (   0.567 %)
accumulated results Born          = 0.1669E-07  +/-  0.7674E-10  (   0.460 %)
accumulated results V  2          = -.7162E-11  +/-  0.1699E-10  ( 237.215 %)
accumulated results B  2          = 0.1669E-07  +/-  0.7674E-10  (   0.460 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   481443    11605  0.1058E-08  0.4954E-09  0.8530E+00
channel    2 :     1 T    16597    11053  0.1046E-08  0.5653E-09  0.8541E+00
channel    3 :     2 T    30839    21384  0.2004E-08  0.1023E-08  0.7406E+00
channel    4 :     2 T    30999    21494  0.1994E-08  0.1160E-08  0.9767E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1010830360273068E-009  +/-   3.5563720033240298E-011
 Final result:   3.2433697818616258E-009  +/-   3.6228088304756908E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363135
   Stability unknown:                                          0
   Stable PS point:                                       363135
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363135
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363135
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.47762489    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.72609639    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.34604931    
 Time spent in Integrated_CT :    9.63519287    
 Time spent in Virtuals :    564.142090    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.82534885    
 Time spent in N1body_prefactor :   0.777429163    
 Time spent in Adding_alphas_pdf :    5.96519852    
 Time spent in Reweight_scale :    32.4004211    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.0967655    
 Time spent in Applying_cuts :    5.64165974    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.1292114    
 Time spent in Other_tasks :    23.9836426    
 Time spent in Total :    712.146667    
Time in seconds: 781



LOG file for integration channel /P0_bxb_emep/all_G1_43, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6738
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          43
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 135751
  with seed                   49
 Ranmar initialization seeds         124       24856
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.440073D+04 0.440073D+04  1.00
 muF1, muF1_reference: 0.440073D+04 0.440073D+04  1.00
 muF2, muF2_reference: 0.440073D+04 0.440073D+04  1.00
 QES,  QES_reference:  0.440073D+04 0.440073D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4710354433698736E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4710354433698736E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4281407705595760E-006           OLP:   -1.4281407705595769E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5596537241398576E-006           OLP:   -1.5596537241398957E-006
  FINITE:
           OLP:   -1.5148226324419151E-004
           BORN:    5.3505959341837331E-004
  MOMENTA (Exyzm): 
           1   2200.3635892973853        0.0000000000000000        0.0000000000000000        2200.3635892973853        0.0000000000000000     
           2   2200.3635892973853       -0.0000000000000000       -0.0000000000000000       -2200.3635892973853        0.0000000000000000     
           3   2200.3635892973853       -1039.9348005760553       -1800.3111374805567        720.42719543335943        0.0000000000000000     
           4   2200.3635892973853        1039.9348005760553        1800.3111374805567       -720.42719543335943        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4281407705595760E-006           OLP:   -1.4281407705595769E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -1.5596537241398576E-006           OLP:   -1.5596537241398957E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 Error #15 in genps_fks.f  -1.1175870895385742E-006           3
ABS integral  = 0.6115E-08  +/-  0.3562E-10  (   0.583 %)
Integral      = 0.3194E-08  +/-  0.3630E-10  (   1.136 %)
Virtual       = -.3468E-10  +/-  0.1689E-10  (  48.718 %)
Virtual ratio = -.2919E+00  +/-  0.3689E-03  (   0.126 %)
ABS virtual   = 0.2922E-08  +/-  0.1644E-10  (   0.563 %)
Born          = 0.1673E-07  +/-  0.7635E-10  (   0.456 %)
V  2          = -.3468E-10  +/-  0.1689E-10  (  48.718 %)
B  2          = 0.1673E-07  +/-  0.7635E-10  (   0.456 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6115E-08  +/-  0.3562E-10  (   0.583 %)
accumulated results Integral      = 0.3194E-08  +/-  0.3630E-10  (   1.136 %)
accumulated results Virtual       = -.3468E-10  +/-  0.1689E-10  (  48.718 %)
accumulated results Virtual ratio = -.2919E+00  +/-  0.3689E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2922E-08  +/-  0.1644E-10  (   0.563 %)
accumulated results Born          = 0.1673E-07  +/-  0.7635E-10  (   0.456 %)
accumulated results V  2          = -.3468E-10  +/-  0.1689E-10  (  48.718 %)
accumulated results B  2          = 0.1673E-07  +/-  0.7635E-10  (   0.456 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   481209    11605  0.1054E-08  0.4963E-09  0.8747E+00
channel    2 :     1 T    16586    11053  0.1060E-08  0.5429E-09  0.8495E+00
channel    3 :     2 T    30992    21384  0.2022E-08  0.1025E-08  0.7586E+00
channel    4 :     2 T    31084    21494  0.1979E-08  0.1130E-08  0.9384E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1153334434768960E-009  +/-   3.5623427961690465E-011
 Final result:   3.1940025621969857E-009  +/-   3.6298806930975942E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363278
   Stability unknown:                                          0
   Stable PS point:                                       363278
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363278
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363278
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.48102069    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.75201893    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.39205360    
 Time spent in Integrated_CT :    9.67034912    
 Time spent in Virtuals :    564.952881    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.87849903    
 Time spent in N1body_prefactor :   0.780762315    
 Time spent in Adding_alphas_pdf :    5.87763119    
 Time spent in Reweight_scale :    32.4207077    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.3431854    
 Time spent in Applying_cuts :    5.66417885    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.3893394    
 Time spent in Other_tasks :    24.0755615    
 Time spent in Total :    713.678223    
Time in seconds: 783



LOG file for integration channel /P0_bxb_emep/all_G1_44, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6757
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          44
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 138908
  with seed                   49
 Ranmar initialization seeds         124       28013
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.432653D+04 0.432653D+04  1.00
 muF1, muF1_reference: 0.432653D+04 0.432653D+04  1.00
 muF2, muF2_reference: 0.432653D+04 0.432653D+04  1.00
 QES,  QES_reference:  0.432653D+04 0.432653D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4830024937449294E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4830024937449294E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6956382190141280E-006           OLP:   -1.6956382190141287E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0474447086261327E-006           OLP:   -2.0474447086261700E-006
  FINITE:
           OLP:   -1.8460725650722533E-004
           BORN:    6.3527875875630049E-004
  MOMENTA (Exyzm): 
           1   2163.2627406113079        0.0000000000000000        0.0000000000000000        2163.2627406113079        0.0000000000000000     
           2   2163.2627406113079       -0.0000000000000000       -0.0000000000000000       -2163.2627406113079        0.0000000000000000     
           3   2163.2627406113079       -2096.4467901228154       -131.10961226857236        517.13326200475194        0.0000000000000000     
           4   2163.2627406113079        2096.4467901228154        131.10961226857236       -517.13326200475194        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6956382190141280E-006           OLP:   -1.6956382190141287E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0474447086261332E-006           OLP:   -2.0474447086261700E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.6144E-08  +/-  0.3432E-10  (   0.559 %)
Integral      = 0.3324E-08  +/-  0.3501E-10  (   1.053 %)
Virtual       = 0.2900E-10  +/-  0.1701E-10  (  58.654 %)
Virtual ratio = -.2909E+00  +/-  0.3700E-03  (   0.127 %)
ABS virtual   = 0.2954E-08  +/-  0.1654E-10  (   0.560 %)
Born          = 0.1681E-07  +/-  0.7757E-10  (   0.462 %)
V  2          = 0.2900E-10  +/-  0.1701E-10  (  58.654 %)
B  2          = 0.1681E-07  +/-  0.7757E-10  (   0.462 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6144E-08  +/-  0.3432E-10  (   0.559 %)
accumulated results Integral      = 0.3324E-08  +/-  0.3501E-10  (   1.053 %)
accumulated results Virtual       = 0.2900E-10  +/-  0.1701E-10  (  58.654 %)
accumulated results Virtual ratio = -.2909E+00  +/-  0.3700E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2954E-08  +/-  0.1654E-10  (   0.560 %)
accumulated results Born          = 0.1681E-07  +/-  0.7757E-10  (   0.462 %)
accumulated results V  2          = 0.2900E-10  +/-  0.1701E-10  (  58.654 %)
accumulated results B  2          = 0.1681E-07  +/-  0.7757E-10  (   0.462 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                         3                        4
channel    1 :     1 T   481050    11605  0.1059E-08  0.5000E-09  0.8468E+00
channel    2 :     1 T    16775    11053  0.1067E-08  0.5693E-09  0.9507E+00
channel    3 :     2 T    30947    21384  0.2002E-08  0.1086E-08  0.8048E+00
channel    4 :     2 T    31105    21494  0.2016E-08  0.1168E-08  0.9250E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1439461487452411E-009  +/-   3.4322895919258463E-011
 Final result:   3.3238894233256028E-009  +/-   3.5010717766994290E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363205
   Stability unknown:                                          0
   Stable PS point:                                       363205
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363205
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363205
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.49522829    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.80737257    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.40860653    
 Time spent in Integrated_CT :    9.66455078    
 Time spent in Virtuals :    565.005859    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.89218712    
 Time spent in N1body_prefactor :   0.784197211    
 Time spent in Adding_alphas_pdf :    5.86884975    
 Time spent in Reweight_scale :    32.3870735    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.1419315    
 Time spent in Applying_cuts :    5.67036200    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.0557137    
 Time spent in Other_tasks :    24.1921387    
 Time spent in Total :    713.374023    
Time in seconds: 781



LOG file for integration channel /P0_bxb_emep/all_G1_45, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6759
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          45
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 142065
  with seed                   49
 Ranmar initialization seeds         124        1089
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.429960D+04 0.429960D+04  1.00
 muF1, muF1_reference: 0.429960D+04 0.429960D+04  1.00
 muF2, muF2_reference: 0.429960D+04 0.429960D+04  1.00
 QES,  QES_reference:  0.429960D+04 0.429960D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4874051156273783E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4874051156273796E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6186093943168602E-006           OLP:   -1.6186093943168611E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.9044537505808021E-006           OLP:   -1.9044537505808023E-006
  FINITE:
           OLP:   -1.7439977700336431E-004
           BORN:    6.0641955070507580E-004
  MOMENTA (Exyzm): 
           1   2149.7997478602979        0.0000000000000000        0.0000000000000000        2149.7997478602979        0.0000000000000000     
           2   2149.7997478602979       -0.0000000000000000       -0.0000000000000000       -2149.7997478602979        0.0000000000000000     
           3   2149.7997478602979       -1021.0489610510299       -1805.2793440465596        565.74240162430488        0.0000000000000000     
           4   2149.7997478602979        1021.0489610510299        1805.2793440465596       -565.74240162430488        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6186093943168602E-006           OLP:   -1.6186093943168611E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -1.9044537505808025E-006           OLP:   -1.9044537505808023E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6085E-08  +/-  0.3390E-10  (   0.557 %)
Integral      = 0.3257E-08  +/-  0.3459E-10  (   1.062 %)
Virtual       = 0.2789E-11  +/-  0.1702E-10  ( 610.141 %)
Virtual ratio = -.2915E+00  +/-  0.3689E-03  (   0.127 %)
ABS virtual   = 0.2924E-08  +/-  0.1657E-10  (   0.567 %)
Born          = 0.1665E-07  +/-  0.7583E-10  (   0.455 %)
V  2          = 0.2789E-11  +/-  0.1702E-10  ( 610.141 %)
B  2          = 0.1665E-07  +/-  0.7583E-10  (   0.455 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6085E-08  +/-  0.3390E-10  (   0.557 %)
accumulated results Integral      = 0.3257E-08  +/-  0.3459E-10  (   1.062 %)
accumulated results Virtual       = 0.2789E-11  +/-  0.1702E-10  ( 610.141 %)
accumulated results Virtual ratio = -.2915E+00  +/-  0.3689E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2924E-08  +/-  0.1657E-10  (   0.567 %)
accumulated results Born          = 0.1665E-07  +/-  0.7583E-10  (   0.455 %)
accumulated results V  2          = 0.2789E-11  +/-  0.1702E-10  ( 610.141 %)
accumulated results B  2          = 0.1665E-07  +/-  0.7583E-10  (   0.455 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                         3                        4
channel    1 :     1 T   481289    11605  0.1059E-08  0.5007E-09  0.8929E+00
channel    2 :     1 T    16503    11053  0.1048E-08  0.5609E-09  0.9233E+00
channel    3 :     2 T    30754    21384  0.1976E-08  0.1039E-08  0.8186E+00
channel    4 :     2 T    31320    21494  0.2002E-08  0.1156E-08  0.9562E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0848997230718356E-009  +/-   3.3903133317529291E-011
 Final result:   3.2565827703490318E-009  +/-   3.4592094601359285E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363895
   Stability unknown:                                          0
   Stable PS point:                                       363895
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363895
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363895
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.47517896    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.74075794    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.35502672    
 Time spent in Integrated_CT :    9.67443848    
 Time spent in Virtuals :    565.489502    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.88007689    
 Time spent in N1body_prefactor :   0.772908568    
 Time spent in Adding_alphas_pdf :    5.92184353    
 Time spent in Reweight_scale :    32.4931908    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.1165886    
 Time spent in Applying_cuts :    5.68065739    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.1102676    
 Time spent in Other_tasks :    24.0162964    
 Time spent in Total :    713.726685    
Time in seconds: 781



LOG file for integration channel /P0_bxb_emep/all_G1_46, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6769
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          46
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 145222
  with seed                   49
 Ranmar initialization seeds         124        4246
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.439741D+04 0.439741D+04  1.00
 muF1, muF1_reference: 0.439741D+04 0.439741D+04  1.00
 muF2, muF2_reference: 0.439741D+04 0.439741D+04  1.00
 QES,  QES_reference:  0.439741D+04 0.439741D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4715653079178337E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4715653079178337E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.9078553063044396E-006           OLP:   -1.9078553063044362E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.4521896901080019E-006           OLP:   -2.4521896901080311E-006
  FINITE:
           OLP:   -2.1153004606443132E-004
           BORN:    7.1478687923205351E-004
  MOMENTA (Exyzm): 
           1   2198.7050641289325        0.0000000000000000        0.0000000000000000        2198.7050641289325        0.0000000000000000     
           2   2198.7050641289325       -0.0000000000000000       -0.0000000000000000       -2198.7050641289325        0.0000000000000000     
           3   2198.7050641289325       -1926.5127050559845       -985.57671500330775        389.21882678947225        0.0000000000000000     
           4   2198.7050641289325        1926.5127050559845        985.57671500330775       -389.21882678947225        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.9078553063044396E-006           OLP:   -1.9078553063044362E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.4521896901080019E-006           OLP:   -2.4521896901080311E-006
 REAL 1: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6108E-08  +/-  0.3449E-10  (   0.565 %)
Integral      = 0.3248E-08  +/-  0.3517E-10  (   1.083 %)
Virtual       = -.1163E-10  +/-  0.1713E-10  ( 147.344 %)
Virtual ratio = -.2912E+00  +/-  0.3692E-03  (   0.127 %)
ABS virtual   = 0.2924E-08  +/-  0.1668E-10  (   0.570 %)
Born          = 0.1680E-07  +/-  0.7813E-10  (   0.465 %)
V  2          = -.1163E-10  +/-  0.1713E-10  ( 147.344 %)
B  2          = 0.1680E-07  +/-  0.7813E-10  (   0.465 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6108E-08  +/-  0.3449E-10  (   0.565 %)
accumulated results Integral      = 0.3248E-08  +/-  0.3517E-10  (   1.083 %)
accumulated results Virtual       = -.1163E-10  +/-  0.1713E-10  ( 147.344 %)
accumulated results Virtual ratio = -.2912E+00  +/-  0.3692E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2924E-08  +/-  0.1668E-10  (   0.570 %)
accumulated results Born          = 0.1680E-07  +/-  0.7813E-10  (   0.465 %)
accumulated results V  2          = -.1163E-10  +/-  0.1713E-10  ( 147.344 %)
accumulated results B  2          = 0.1680E-07  +/-  0.7813E-10  (   0.465 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   481252    11605  0.1058E-08  0.4926E-09  0.8365E+00
channel    2 :     1 T    16677    11053  0.1054E-08  0.5771E-09  0.9702E+00
channel    3 :     2 T    30822    21384  0.1979E-08  0.1004E-08  0.7663E+00
channel    4 :     2 T    31120    21494  0.2016E-08  0.1175E-08  0.9608E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1078476780481819E-009  +/-   3.4487592296688116E-011
 Final result:   3.2482147292581518E-009  +/-   3.5173591800737424E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363544
   Stability unknown:                                          0
   Stable PS point:                                       363544
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363544
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363544
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.51297975    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.75337815    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.41744995    
 Time spent in Integrated_CT :    9.64074707    
 Time spent in Virtuals :    564.529907    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.99877357    
 Time spent in N1body_prefactor :   0.768172383    
 Time spent in Adding_alphas_pdf :    5.96209860    
 Time spent in Reweight_scale :    32.6669693    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.5226860    
 Time spent in Applying_cuts :    5.72012806    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.7106705    
 Time spent in Other_tasks :    24.2184448    
 Time spent in Total :    714.422546    
Time in seconds: 782



LOG file for integration channel /P0_bxb_emep/all_G1_47, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6762
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          47
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 148379
  with seed                   49
 Ranmar initialization seeds         124        7403
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.425088D+04 0.425088D+04  1.00
 muF1, muF1_reference: 0.425088D+04 0.425088D+04  1.00
 muF2, muF2_reference: 0.425088D+04 0.425088D+04  1.00
 QES,  QES_reference:  0.425088D+04 0.425088D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4954549936346440E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4954549936346440E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5009396901603519E-006           OLP:   -1.5009396901603525E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6899710389169035E-006           OLP:   -1.6899710389169209E-006
  FINITE:
           OLP:   -1.5818013518132054E-004
           BORN:    5.6233404781800926E-004
  MOMENTA (Exyzm): 
           1   2125.4388236113919        0.0000000000000000        0.0000000000000000        2125.4388236113919        0.0000000000000000     
           2   2125.4388236113919       -0.0000000000000000       -0.0000000000000000       -2125.4388236113919        0.0000000000000000     
           3   2125.4388236113919       -1862.6156617458976       -797.58979982173435        641.87506631259203        0.0000000000000000     
           4   2125.4388236113919        1862.6156617458976        797.58979982173435       -641.87506631259203        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5009396901603519E-006           OLP:   -1.5009396901603525E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6899710389169035E-006           OLP:   -1.6899710389169209E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6099E-08  +/-  0.3553E-10  (   0.583 %)
Integral      = 0.3174E-08  +/-  0.3620E-10  (   1.141 %)
Virtual       = -.2279E-10  +/-  0.1696E-10  (  74.402 %)
Virtual ratio = -.2923E+00  +/-  0.3687E-03  (   0.126 %)
ABS virtual   = 0.2931E-08  +/-  0.1650E-10  (   0.563 %)
Born          = 0.1673E-07  +/-  0.7617E-10  (   0.455 %)
V  2          = -.2279E-10  +/-  0.1696E-10  (  74.402 %)
B  2          = 0.1673E-07  +/-  0.7617E-10  (   0.455 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6099E-08  +/-  0.3553E-10  (   0.583 %)
accumulated results Integral      = 0.3174E-08  +/-  0.3620E-10  (   1.141 %)
accumulated results Virtual       = -.2279E-10  +/-  0.1696E-10  (  74.402 %)
accumulated results Virtual ratio = -.2923E+00  +/-  0.3687E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2931E-08  +/-  0.1650E-10  (   0.563 %)
accumulated results Born          = 0.1673E-07  +/-  0.7617E-10  (   0.455 %)
accumulated results V  2          = -.2279E-10  +/-  0.1696E-10  (  74.402 %)
accumulated results B  2          = 0.1673E-07  +/-  0.7617E-10  (   0.455 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                         3                        4
channel    1 :     1 T   480884    11605  0.1056E-08  0.4976E-09  0.8612E+00
channel    2 :     1 T    16464    11053  0.1048E-08  0.5263E-09  0.7669E+00
channel    3 :     2 T    31215    21384  0.1990E-08  0.1038E-08  0.8210E+00
channel    4 :     2 T    31306    21494  0.2004E-08  0.1112E-08  0.9533E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0985299661901443E-009  +/-   3.5525111170391323E-011
 Final result:   3.1737661963236006E-009  +/-   3.6200440241078982E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363607
   Stability unknown:                                          0
   Stable PS point:                                       363607
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363607
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363607
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.49027431    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.73533964    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.40632010    
 Time spent in Integrated_CT :    9.61322021    
 Time spent in Virtuals :    565.906555    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.90798855    
 Time spent in N1body_prefactor :   0.789072037    
 Time spent in Adding_alphas_pdf :    5.93491268    
 Time spent in Reweight_scale :    32.5544662    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.5410366    
 Time spent in Applying_cuts :    5.58178043    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.0719070    
 Time spent in Other_tasks :    24.0565796    
 Time spent in Total :    714.589417    
Time in seconds: 781



LOG file for integration channel /P0_bxb_emep/all_G1_48, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6764
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          48
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 151536
  with seed                   49
 Ranmar initialization seeds         124       10560
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.435478D+04 0.435478D+04  1.00
 muF1, muF1_reference: 0.435478D+04 0.435478D+04  1.00
 muF2, muF2_reference: 0.435478D+04 0.435478D+04  1.00
 QES,  QES_reference:  0.435478D+04 0.435478D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4784174857519564E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 REAL 1: keeping split order            1
 alpha_s value used for the virtuals is (for the first PS point):    7.4768049080759930E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8250245964622133E-006           OLP:   -1.8250245964622167E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2923163811853089E-006           OLP:   -2.2923163811853089E-006
  FINITE:
           OLP:   -2.0107831736917899E-004
           BORN:    6.8375396788020442E-004
  MOMENTA (Exyzm): 
           1   2182.3838060060957        0.0000000000000000        0.0000000000000000        2182.3838060060957        0.0000000000000000     
           2   2182.3838060060957       -0.0000000000000000       -0.0000000000000000       -2182.3838060060957        0.0000000000000000     
           3   2182.3838060060957       -1710.1443948270833       -1283.2243026678439        437.65353260517350        0.0000000000000000     
           4   2182.3838060060957        1710.1443948270833        1283.2243026678439       -437.65353260517350        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8250245964622133E-006           OLP:   -1.8250245964622167E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2923163811853089E-006           OLP:   -2.2923163811853089E-006
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 Error #15 in genps_fks.f  -1.0772926088975510E-006           4
ABS integral  = 0.6089E-08  +/-  0.3388E-10  (   0.556 %)
Integral      = 0.3176E-08  +/-  0.3458E-10  (   1.089 %)
Virtual       = -.1894E-10  +/-  0.1693E-10  (  89.413 %)
Virtual ratio = -.2913E+00  +/-  0.3694E-03  (   0.127 %)
ABS virtual   = 0.2932E-08  +/-  0.1648E-10  (   0.562 %)
Born          = 0.1674E-07  +/-  0.7720E-10  (   0.461 %)
V  2          = -.1894E-10  +/-  0.1693E-10  (  89.413 %)
B  2          = 0.1674E-07  +/-  0.7720E-10  (   0.461 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6089E-08  +/-  0.3388E-10  (   0.556 %)
accumulated results Integral      = 0.3176E-08  +/-  0.3458E-10  (   1.089 %)
accumulated results Virtual       = -.1894E-10  +/-  0.1693E-10  (  89.413 %)
accumulated results Virtual ratio = -.2913E+00  +/-  0.3694E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2932E-08  +/-  0.1648E-10  (   0.562 %)
accumulated results Born          = 0.1674E-07  +/-  0.7720E-10  (   0.461 %)
accumulated results V  2          = -.1894E-10  +/-  0.1693E-10  (  89.413 %)
accumulated results B  2          = 0.1674E-07  +/-  0.7720E-10  (   0.461 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                         3                        4
channel    1 :     1 T   481097    11605  0.1060E-08  0.4977E-09  0.8849E+00
channel    2 :     1 T    16664    11053  0.1038E-08  0.5215E-09  0.9169E+00
channel    3 :     2 T    31263    21384  0.2019E-08  0.1022E-08  0.8013E+00
channel    4 :     2 T    30846    21494  0.1972E-08  0.1135E-08  0.9697E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0890617314088359E-009  +/-   3.3875722321306796E-011
 Final result:   3.1763148647499320E-009  +/-   3.4579877040548761E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363305
   Stability unknown:                                          0
   Stable PS point:                                       363305
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363305
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363305
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.48317790    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.74244213    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.36817455    
 Time spent in Integrated_CT :    9.55572510    
 Time spent in Virtuals :    564.538818    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.97132540    
 Time spent in N1body_prefactor :   0.799024582    
 Time spent in Adding_alphas_pdf :    5.98885870    
 Time spent in Reweight_scale :    32.4479980    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.1796875    
 Time spent in Applying_cuts :    5.64850903    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.9828796    
 Time spent in Other_tasks :    24.1382446    
 Time spent in Total :    712.844788    
Time in seconds: 782



LOG file for integration channel /P0_bxb_emep/all_G1_49, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6763
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          49
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 154693
  with seed                   49
 Ranmar initialization seeds         124       13717
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.442432D+04 0.442432D+04  1.00
 muF1, muF1_reference: 0.442432D+04 0.442432D+04  1.00
 muF2, muF2_reference: 0.442432D+04 0.442432D+04  1.00
 QES,  QES_reference:  0.442432D+04 0.442432D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4672808592643330E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4672808592643330E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.2002496303342640E-006           OLP:   -1.2002496303342627E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.1618905049597304E-006           OLP:   -1.1618905049597583E-006
  FINITE:
           OLP:   -1.1864155315642372E-004
           BORN:    4.4967911598488606E-004
  MOMENTA (Exyzm): 
           1   2212.1587490233878        0.0000000000000000        0.0000000000000000        2212.1587490233878        0.0000000000000000     
           2   2212.1587490233878       -0.0000000000000000       -0.0000000000000000       -2212.1587490233878        0.0000000000000000     
           3   2212.1587490233878       -2008.0503563140917       -113.90950399712800        921.08887860330788        0.0000000000000000     
           4   2212.1587490233878        2008.0503563140917        113.90950399712800       -921.08887860330788        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.2002496303342640E-006           OLP:   -1.2002496303342627E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -1.1618905049597306E-006           OLP:   -1.1618905049597583E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6114E-08  +/-  0.3624E-10  (   0.593 %)
Integral      = 0.3142E-08  +/-  0.3691E-10  (   1.175 %)
Virtual       = -.5155E-10  +/-  0.1658E-10  (  32.163 %)
Virtual ratio = -.2913E+00  +/-  0.3696E-03  (   0.127 %)
ABS virtual   = 0.2918E-08  +/-  0.1611E-10  (   0.552 %)
Born          = 0.1677E-07  +/-  0.7721E-10  (   0.460 %)
V  2          = -.5155E-10  +/-  0.1658E-10  (  32.163 %)
B  2          = 0.1677E-07  +/-  0.7721E-10  (   0.460 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6114E-08  +/-  0.3624E-10  (   0.593 %)
accumulated results Integral      = 0.3142E-08  +/-  0.3691E-10  (   1.175 %)
accumulated results Virtual       = -.5155E-10  +/-  0.1658E-10  (  32.163 %)
accumulated results Virtual ratio = -.2913E+00  +/-  0.3696E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2918E-08  +/-  0.1611E-10  (   0.552 %)
accumulated results Born          = 0.1677E-07  +/-  0.7721E-10  (   0.460 %)
accumulated results V  2          = -.5155E-10  +/-  0.1658E-10  (  32.163 %)
accumulated results B  2          = 0.1677E-07  +/-  0.7721E-10  (   0.460 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                            1                   2                         3                        4
channel    1 :     1 T   480800    11605  0.1063E-08  0.5007E-09  0.8100E+00
channel    2 :     1 T    16566    11053  0.1067E-08  0.5505E-09  0.8030E+00
channel    3 :     2 T    31219    21384  0.1977E-08  0.9601E-09  0.7334E+00
channel    4 :     2 T    31288    21494  0.2007E-08  0.1131E-08  0.9175E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1135196613375204E-009  +/-   3.6242663832612315E-011
 Final result:   3.1418988764825597E-009  +/-   3.6914163556811580E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363473
   Stability unknown:                                          0
   Stable PS point:                                       363473
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363473
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363473
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.49263632    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.75801015    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.40915823    
 Time spent in Integrated_CT :    9.68896484    
 Time spent in Virtuals :    564.936707    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.90670109    
 Time spent in N1body_prefactor :   0.771221161    
 Time spent in Adding_alphas_pdf :    5.95815325    
 Time spent in Reweight_scale :    32.4583588    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.2277775    
 Time spent in Applying_cuts :    5.59669256    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.8928223    
 Time spent in Other_tasks :    23.9757690    
 Time spent in Total :    713.072937    
Time in seconds: 782



LOG file for integration channel /P0_bxb_emep/all_G1_50, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6752
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          50
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 157850
  with seed                   49
 Ranmar initialization seeds         124       16874
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.433636D+04 0.433636D+04  1.00
 muF1, muF1_reference: 0.433636D+04 0.433636D+04  1.00
 muF2, muF2_reference: 0.433636D+04 0.433636D+04  1.00
 QES,  QES_reference:  0.433636D+04 0.433636D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4814027485284124E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4814027485284124E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
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 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7256237357735626E-006           OLP:   -1.7256237357735639E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1036691285160304E-006           OLP:   -2.1036691285160710E-006
  FINITE:
           OLP:   -1.8850411779452049E-004
           BORN:    6.4651297231317314E-004
  MOMENTA (Exyzm): 
           1   2168.1793357749939        0.0000000000000000        0.0000000000000000        2168.1793357749939        0.0000000000000000     
           2   2168.1793357749939       -0.0000000000000000       -0.0000000000000000       -2168.1793357749939        0.0000000000000000     
           3   2168.1793357749939       -1449.5491540961987       -1533.3965215104818        498.50174499217638        0.0000000000000000     
           4   2168.1793357749939        1449.5491540961987        1533.3965215104818       -498.50174499217638        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7256237357735626E-006           OLP:   -1.7256237357735639E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1036691285160308E-006           OLP:   -2.1036691285160710E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6147E-08  +/-  0.3653E-10  (   0.594 %)
Integral      = 0.3250E-08  +/-  0.3719E-10  (   1.144 %)
Virtual       = 0.2776E-11  +/-  0.1722E-10  ( 620.047 %)
Virtual ratio = -.2912E+00  +/-  0.3697E-03  (   0.127 %)
ABS virtual   = 0.2953E-08  +/-  0.1676E-10  (   0.568 %)
Born          = 0.1679E-07  +/-  0.7795E-10  (   0.464 %)
V  2          = 0.2776E-11  +/-  0.1722E-10  ( 620.047 %)
B  2          = 0.1679E-07  +/-  0.7795E-10  (   0.464 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6147E-08  +/-  0.3653E-10  (   0.594 %)
accumulated results Integral      = 0.3250E-08  +/-  0.3719E-10  (   1.144 %)
accumulated results Virtual       = 0.2776E-11  +/-  0.1722E-10  ( 620.047 %)
accumulated results Virtual ratio = -.2912E+00  +/-  0.3697E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2953E-08  +/-  0.1676E-10  (   0.568 %)
accumulated results Born          = 0.1679E-07  +/-  0.7795E-10  (   0.464 %)
accumulated results V  2          = 0.2776E-11  +/-  0.1722E-10  ( 620.047 %)
accumulated results B  2          = 0.1679E-07  +/-  0.7795E-10  (   0.464 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                         3                         4
channel    1 :     1 T   480742    11605  0.1063E-08  0.5043E-09  0.8597E+00
channel    2 :     1 T    16757    11053  0.1069E-08  0.5621E-09  0.8404E+00
channel    3 :     2 T    31110    21384  0.2014E-08  0.1040E-08  0.7558E+00
channel    4 :     2 T    31264    21494  0.2001E-08  0.1143E-08  0.9357E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1474457267761782E-009  +/-   3.6528374987673763E-011
 Final result:   3.2495501977876462E-009  +/-   3.7188183574003537E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363421
   Stability unknown:                                          0
   Stable PS point:                                       363421
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363421
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363421
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.48585045    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.74466753    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.41538525    
 Time spent in Integrated_CT :    9.52960205    
 Time spent in Virtuals :    564.886841    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.92045784    
 Time spent in N1body_prefactor :   0.781718075    
 Time spent in Adding_alphas_pdf :    5.82483196    
 Time spent in Reweight_scale :    32.5598679    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.1547489    
 Time spent in Applying_cuts :    5.63934994    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.0192986    
 Time spent in Other_tasks :    24.1894531    
 Time spent in Total :    713.152039    
Time in seconds: 782



LOG file for integration channel /P0_bxb_emep/all_G1_51, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6768
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          51
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 161007
  with seed                   49
 Ranmar initialization seeds         124       20031
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.431003D+04 0.431003D+04  1.00
 muF1, muF1_reference: 0.431003D+04 0.431003D+04  1.00
 muF2, muF2_reference: 0.431003D+04 0.431003D+04  1.00
 QES,  QES_reference:  0.431003D+04 0.431003D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4856963552793448E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4856963552793448E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5198938822284648E-006           OLP:   -1.5198938822284641E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7242172186303877E-006           OLP:   -1.7242172186303974E-006
  FINITE:
           OLP:   -1.6194706131143809E-004
           BORN:    5.6943532418417904E-004
  MOMENTA (Exyzm): 
           1   2155.0132610174555        0.0000000000000000        0.0000000000000000        2155.0132610174555        0.0000000000000000     
           2   2155.0132610174555       -0.0000000000000000       -0.0000000000000000       -2155.0132610174555        0.0000000000000000     
           3   2155.0132610174555       -1887.2668028358914       -822.58091505678010        636.91978165152852        0.0000000000000000     
           4   2155.0132610174555        1887.2668028358914        822.58091505678010       -636.91978165152852        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5198938822284648E-006           OLP:   -1.5198938822284641E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7242172186303879E-006           OLP:   -1.7242172186303974E-006
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
ABS integral  = 0.6162E-08  +/-  0.3409E-10  (   0.553 %)
Integral      = 0.3300E-08  +/-  0.3479E-10  (   1.054 %)
Virtual       = -.1448E-10  +/-  0.1681E-10  ( 116.088 %)
Virtual ratio = -.2914E+00  +/-  0.3690E-03  (   0.127 %)
ABS virtual   = 0.2948E-08  +/-  0.1635E-10  (   0.554 %)
Born          = 0.1688E-07  +/-  0.7755E-10  (   0.459 %)
V  2          = -.1448E-10  +/-  0.1681E-10  ( 116.088 %)
B  2          = 0.1688E-07  +/-  0.7755E-10  (   0.459 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6162E-08  +/-  0.3409E-10  (   0.553 %)
accumulated results Integral      = 0.3300E-08  +/-  0.3479E-10  (   1.054 %)
accumulated results Virtual       = -.1448E-10  +/-  0.1681E-10  ( 116.088 %)
accumulated results Virtual ratio = -.2914E+00  +/-  0.3690E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2948E-08  +/-  0.1635E-10  (   0.554 %)
accumulated results Born          = 0.1688E-07  +/-  0.7755E-10  (   0.459 %)
accumulated results V  2          = -.1448E-10  +/-  0.1681E-10  ( 116.088 %)
accumulated results B  2          = 0.1688E-07  +/-  0.7755E-10  (   0.459 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                         3                        4
channel    1 :     1 T   480691    11605  0.1061E-08  0.4958E-09  0.8161E+00
channel    2 :     1 T    16525    11053  0.1057E-08  0.5515E-09  0.8872E+00
channel    3 :     2 T    31343    21384  0.2028E-08  0.1076E-08  0.8215E+00
channel    4 :     2 T    31312    21494  0.2016E-08  0.1177E-08  0.9339E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1617573651145879E-009  +/-   3.4089034516446907E-011
 Final result:   3.2997691292509761E-009  +/-   3.4791209941738371E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363397
   Stability unknown:                                          0
   Stable PS point:                                       363397
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363397
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363397
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.52674866    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.75328779    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.41108894    
 Time spent in Integrated_CT :    9.66003418    
 Time spent in Virtuals :    564.334290    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    8.12091827    
 Time spent in N1body_prefactor :   0.804268062    
 Time spent in Adding_alphas_pdf :    5.97648335    
 Time spent in Reweight_scale :    32.6474495    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.2752209    
 Time spent in Applying_cuts :    5.75775671    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.2245522    
 Time spent in Other_tasks :    25.0773315    
 Time spent in Total :    714.569397    
Time in seconds: 782



LOG file for integration channel /P0_bxb_emep/all_G1_52, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6748
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          52
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 164164
  with seed                   49
 Ranmar initialization seeds         124       23188
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.414824D+04 0.414824D+04  1.00
 muF1, muF1_reference: 0.414824D+04 0.414824D+04  1.00
 muF2, muF2_reference: 0.414824D+04 0.414824D+04  1.00
 QES,  QES_reference:  0.414824D+04 0.414824D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5127755978494332E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5127755978494332E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6928796006428667E-006           OLP:   -1.6928796006428650E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0422295793635249E-006           OLP:   -2.0422295793635147E-006
  FINITE:
           OLP:   -1.7986809349016859E-004
           BORN:    6.3424522953106513E-004
  MOMENTA (Exyzm): 
           1   2074.1209344725062        0.0000000000000000        0.0000000000000000        2074.1209344725062        0.0000000000000000     
           2   2074.1209344725062       -0.0000000000000000       -0.0000000000000000       -2074.1209344725062        0.0000000000000000     
           3   2074.1209344725062       -1431.4152423948915       -1416.1163020611552        497.63709035130665        0.0000000000000000     
           4   2074.1209344725062        1431.4152423948915        1416.1163020611552       -497.63709035130665        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6928796006428667E-006           OLP:   -1.6928796006428650E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -2.0422295793635249E-006           OLP:   -2.0422295793635147E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 Error #15 in genps_fks.f  -1.1697411537170410E-006           3
ABS integral  = 0.6112E-08  +/-  0.3414E-10  (   0.559 %)
Integral      = 0.3270E-08  +/-  0.3483E-10  (   1.065 %)
Virtual       = -.1013E-10  +/-  0.1707E-10  ( 168.460 %)
Virtual ratio = -.2915E+00  +/-  0.3688E-03  (   0.126 %)
ABS virtual   = 0.2929E-08  +/-  0.1662E-10  (   0.567 %)
Born          = 0.1676E-07  +/-  0.7779E-10  (   0.464 %)
V  2          = -.1013E-10  +/-  0.1707E-10  ( 168.460 %)
B  2          = 0.1676E-07  +/-  0.7779E-10  (   0.464 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6112E-08  +/-  0.3414E-10  (   0.559 %)
accumulated results Integral      = 0.3270E-08  +/-  0.3483E-10  (   1.065 %)
accumulated results Virtual       = -.1013E-10  +/-  0.1707E-10  ( 168.460 %)
accumulated results Virtual ratio = -.2915E+00  +/-  0.3688E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2929E-08  +/-  0.1662E-10  (   0.567 %)
accumulated results Born          = 0.1676E-07  +/-  0.7779E-10  (   0.464 %)
accumulated results V  2          = -.1013E-10  +/-  0.1707E-10  ( 168.460 %)
accumulated results B  2          = 0.1676E-07  +/-  0.7779E-10  (   0.464 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   480751    11605  0.1056E-08  0.4984E-09  0.9071E+00
channel    2 :     1 T    16642    11053  0.1060E-08  0.5655E-09  0.9277E+00
channel    3 :     2 T    31093    21384  0.1999E-08  0.1063E-08  0.8115E+00
channel    4 :     2 T    31388    21494  0.1996E-08  0.1142E-08  0.9506E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1116794541593958E-009  +/-   3.4139525540262750E-011
 Final result:   3.2695948556225538E-009  +/-   3.4830008233483841E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363535
   Stability unknown:                                          0
   Stable PS point:                                       363535
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363535
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363535
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.48988640    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.76822019    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.35729980    
 Time spent in Integrated_CT :    9.54840088    
 Time spent in Virtuals :    562.704956    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.91772699    
 Time spent in N1body_prefactor :   0.802754223    
 Time spent in Adding_alphas_pdf :    5.86680031    
 Time spent in Reweight_scale :    32.6281013    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8672113    
 Time spent in Applying_cuts :    5.52146912    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.7138672    
 Time spent in Other_tasks :    23.9019165    
 Time spent in Total :    710.088623    
Time in seconds: 783



LOG file for integration channel /P0_bxb_emep/all_G1_53, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6756
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          53
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 167321
  with seed                   49
 Ranmar initialization seeds         124       26345
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.425450D+04 0.425450D+04  1.00
 muF1, muF1_reference: 0.425450D+04 0.425450D+04  1.00
 muF2, muF2_reference: 0.425450D+04 0.425450D+04  1.00
 QES,  QES_reference:  0.425450D+04 0.425450D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4948534682880513E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4948534682880513E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7748089042204344E-006           OLP:   -1.7748089042204372E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1965474858654871E-006           OLP:   -2.1965474858655925E-006
  FINITE:
           OLP:   -1.9230910839299683E-004
           BORN:    6.6494042482619531E-004
  MOMENTA (Exyzm): 
           1   2127.2478646904574        0.0000000000000000        0.0000000000000000        2127.2478646904574        0.0000000000000000     
           2   2127.2478646904574       -0.0000000000000000       -0.0000000000000000       -2127.2478646904574        0.0000000000000000     
           3   2127.2478646904574       -1360.6799877692915       -1569.7498431290267        457.84154323375679        0.0000000000000000     
           4   2127.2478646904574        1360.6799877692915        1569.7498431290267       -457.84154323375679        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7748089042204344E-006           OLP:   -1.7748089042204372E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -2.1965474858654867E-006           OLP:   -2.1965474858655925E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 Error #15 in genps_fks.f  -1.0259336704621091E-006           4
ABS integral  = 0.6064E-08  +/-  0.3391E-10  (   0.559 %)
Integral      = 0.3186E-08  +/-  0.3461E-10  (   1.086 %)
Virtual       = -.3845E-10  +/-  0.1676E-10  (  43.598 %)
Virtual ratio = -.2924E+00  +/-  0.3681E-03  (   0.126 %)
ABS virtual   = 0.2892E-08  +/-  0.1631E-10  (   0.564 %)
Born          = 0.1662E-07  +/-  0.7588E-10  (   0.456 %)
V  2          = -.3845E-10  +/-  0.1676E-10  (  43.598 %)
B  2          = 0.1662E-07  +/-  0.7588E-10  (   0.456 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6064E-08  +/-  0.3391E-10  (   0.559 %)
accumulated results Integral      = 0.3186E-08  +/-  0.3461E-10  (   1.086 %)
accumulated results Virtual       = -.3845E-10  +/-  0.1676E-10  (  43.598 %)
accumulated results Virtual ratio = -.2924E+00  +/-  0.3681E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2892E-08  +/-  0.1631E-10  (   0.564 %)
accumulated results Born          = 0.1662E-07  +/-  0.7588E-10  (   0.456 %)
accumulated results V  2          = -.3845E-10  +/-  0.1676E-10  (  43.598 %)
accumulated results B  2          = 0.1662E-07  +/-  0.7588E-10  (   0.456 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                            1                   2                         3                        4
channel    1 :     1 T   481081    11605  0.1052E-08  0.4933E-09  0.8772E+00
channel    2 :     1 T    16697    11053  0.1051E-08  0.5477E-09  0.9122E+00
channel    3 :     2 T    31073    21384  0.2000E-08  0.1016E-08  0.8032E+00
channel    4 :     2 T    31019    21494  0.1962E-08  0.1129E-08  0.9429E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0641263959212571E-009  +/-   3.3911306880090555E-011
 Final result:   3.1864871754165522E-009  +/-   3.4605247991493191E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363269
   Stability unknown:                                          0
   Stable PS point:                                       363269
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363269
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363269
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.48396456    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.74014044    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.36312294    
 Time spent in Integrated_CT :    9.57928467    
 Time spent in Virtuals :    562.595459    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.89882898    
 Time spent in N1body_prefactor :   0.788818121    
 Time spent in Adding_alphas_pdf :    5.86891079    
 Time spent in Reweight_scale :    32.5326958    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8978987    
 Time spent in Applying_cuts :    5.54768229    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.7614899    
 Time spent in Other_tasks :    24.1116943    
 Time spent in Total :    710.169922    
Time in seconds: 781



LOG file for integration channel /P0_bxb_emep/all_G1_54, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6761
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          54
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 170478
  with seed                   49
 Ranmar initialization seeds         124       29502
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.436527D+04 0.436527D+04  1.00
 muF1, muF1_reference: 0.436527D+04 0.436527D+04  1.00
 muF2, muF2_reference: 0.436527D+04 0.436527D+04  1.00
 QES,  QES_reference:  0.436527D+04 0.436527D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4767240744309724E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4767240744309724E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4170981628819615E-006           OLP:   -1.4170981628819634E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5400205112776155E-006           OLP:   -1.5400205112776867E-006
  FINITE:
           OLP:   -1.4925412837521652E-004
           BORN:    5.3092242900428833E-004
  MOMENTA (Exyzm): 
           1   2182.6345129269639        0.0000000000000000        0.0000000000000000        2182.6345129269639        0.0000000000000000     
           2   2182.6345129269639       -0.0000000000000000       -0.0000000000000000       -2182.6345129269639        0.0000000000000000     
           3   2182.6345129269639       -2058.2789689923688       -65.073915761456405        723.28866181567253        0.0000000000000000     
           4   2182.6345129269639        2058.2789689923688        65.073915761456405       -723.28866181567253        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4170981628819615E-006           OLP:   -1.4170981628819634E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5400205112776155E-006           OLP:   -1.5400205112776867E-006
 REAL 1: keeping split order            1
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6087E-08  +/-  0.3447E-10  (   0.566 %)
Integral      = 0.3209E-08  +/-  0.3516E-10  (   1.096 %)
Virtual       = -.1434E-10  +/-  0.1674E-10  ( 116.691 %)
Virtual ratio = -.2910E+00  +/-  0.3703E-03  (   0.127 %)
ABS virtual   = 0.2921E-08  +/-  0.1628E-10  (   0.557 %)
Born          = 0.1672E-07  +/-  0.7681E-10  (   0.459 %)
V  2          = -.1434E-10  +/-  0.1674E-10  ( 116.691 %)
B  2          = 0.1672E-07  +/-  0.7681E-10  (   0.459 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6087E-08  +/-  0.3447E-10  (   0.566 %)
accumulated results Integral      = 0.3209E-08  +/-  0.3516E-10  (   1.096 %)
accumulated results Virtual       = -.1434E-10  +/-  0.1674E-10  ( 116.691 %)
accumulated results Virtual ratio = -.2910E+00  +/-  0.3703E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2921E-08  +/-  0.1628E-10  (   0.557 %)
accumulated results Born          = 0.1672E-07  +/-  0.7681E-10  (   0.459 %)
accumulated results V  2          = -.1434E-10  +/-  0.1674E-10  ( 116.691 %)
accumulated results B  2          = 0.1672E-07  +/-  0.7681E-10  (   0.459 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   480929    11605  0.1056E-08  0.4963E-09  0.8653E+00
channel    2 :     1 T    16733    11053  0.1047E-08  0.5580E-09  0.9361E+00
channel    3 :     2 T    31054    21384  0.2035E-08  0.1063E-08  0.7628E+00
channel    4 :     2 T    31161    21494  0.1950E-08  0.1091E-08  0.9352E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0872280930147419E-009  +/-   3.4470537645330763E-011
 Final result:   3.2086458763472191E-009  +/-   3.5156972381430882E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    362420
   Stability unknown:                                          0
   Stable PS point:                                       362420
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 362420
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       362420
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.41323113    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.40857410    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.06733370    
 Time spent in Integrated_CT :    8.78234863    
 Time spent in Virtuals :    520.625488    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.32326269    
 Time spent in N1body_prefactor :   0.717796803    
 Time spent in Adding_alphas_pdf :    5.70123053    
 Time spent in Reweight_scale :    29.6122608    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.5350895    
 Time spent in Applying_cuts :    5.30774260    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    34.4982376    
 Time spent in Other_tasks :    22.9762573    
 Time spent in Total :    657.968811    
Time in seconds: 664



LOG file for integration channel /P0_bxb_emep/all_G1_55, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6760
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          55
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 173635
  with seed                   49
 Ranmar initialization seeds         124        2578
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.441249D+04 0.441249D+04  1.00
 muF1, muF1_reference: 0.441249D+04 0.441249D+04  1.00
 muF2, muF2_reference: 0.441249D+04 0.441249D+04  1.00
 QES,  QES_reference:  0.441249D+04 0.441249D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4691597671180249E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4691597671180249E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5392903445791788E-006           OLP:   -1.5392903445791782E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7593988706407673E-006           OLP:   -1.7593988706406781E-006
  FINITE:
           OLP:   -1.6671456985583422E-004
           BORN:    5.7670229917226889E-004
  MOMENTA (Exyzm): 
           1   2206.2466365483829        0.0000000000000000        0.0000000000000000        2206.2466365483829        0.0000000000000000     
           2   2206.2466365483829       -0.0000000000000000       -0.0000000000000000       -2206.2466365483829        0.0000000000000000     
           3   2206.2466365483829       -1610.0732494970293       -1366.9560701694588        637.66719749568279        0.0000000000000000     
           4   2206.2466365483829        1610.0732494970293        1366.9560701694588       -637.66719749568279        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5392903445791788E-006           OLP:   -1.5392903445791782E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7593988706407673E-006           OLP:   -1.7593988706406781E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6053E-08  +/-  0.3451E-10  (   0.570 %)
Integral      = 0.3161E-08  +/-  0.3520E-10  (   1.114 %)
Virtual       = -.2834E-10  +/-  0.1688E-10  (  59.583 %)
Virtual ratio = -.2917E+00  +/-  0.3687E-03  (   0.126 %)
ABS virtual   = 0.2895E-08  +/-  0.1644E-10  (   0.568 %)
Born          = 0.1663E-07  +/-  0.7722E-10  (   0.464 %)
V  2          = -.2834E-10  +/-  0.1688E-10  (  59.583 %)
B  2          = 0.1663E-07  +/-  0.7722E-10  (   0.464 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6053E-08  +/-  0.3451E-10  (   0.570 %)
accumulated results Integral      = 0.3161E-08  +/-  0.3520E-10  (   1.114 %)
accumulated results Virtual       = -.2834E-10  +/-  0.1688E-10  (  59.583 %)
accumulated results Virtual ratio = -.2917E+00  +/-  0.3687E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2895E-08  +/-  0.1644E-10  (   0.568 %)
accumulated results Born          = 0.1663E-07  +/-  0.7722E-10  (   0.464 %)
accumulated results V  2          = -.2834E-10  +/-  0.1688E-10  (  59.583 %)
accumulated results B  2          = 0.1663E-07  +/-  0.7722E-10  (   0.464 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   481453    11605  0.1066E-08  0.4990E-09  0.7878E+00
channel    2 :     1 T    16446    11053  0.1047E-08  0.5579E-09  0.9181E+00
channel    3 :     2 T    30688    21384  0.1949E-08  0.9810E-09  0.8023E+00
channel    4 :     2 T    31282    21494  0.1991E-08  0.1123E-08  0.9207E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0528464833426988E-009  +/-   3.4513475695502004E-011
 Final result:   3.1605922691895054E-009  +/-   3.5196248326349445E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363613
   Stability unknown:                                          0
   Stable PS point:                                       363613
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363613
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363613
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.42818451    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.39554024    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.03506422    
 Time spent in Integrated_CT :    8.82666016    
 Time spent in Virtuals :    523.834167    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.26182175    
 Time spent in N1body_prefactor :   0.692034245    
 Time spent in Adding_alphas_pdf :    5.53950214    
 Time spent in Reweight_scale :    29.3329449    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.3997326    
 Time spent in Applying_cuts :    5.23695850    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    34.8708191    
 Time spent in Other_tasks :    22.7284546    
 Time spent in Total :    660.581848    
Time in seconds: 667



LOG file for integration channel /P0_bxb_emep/all_G1_56, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6745
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          56
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 176792
  with seed                   49
 Ranmar initialization seeds         124        5735
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.422995D+04 0.422995D+04  1.00
 muF1, muF1_reference: 0.422995D+04 0.422995D+04  1.00
 muF2, muF2_reference: 0.422995D+04 0.422995D+04  1.00
 QES,  QES_reference:  0.422995D+04 0.422995D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4989468842012671E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4989468842012671E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6029434862918731E-006           OLP:   -1.6029434862918739E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.8756051926009788E-006           OLP:   -1.8756051926008827E-006
  FINITE:
           OLP:   -1.7080864497506142E-004
           BORN:    6.0055024527582530E-004
  MOMENTA (Exyzm): 
           1   2114.9731034897186        0.0000000000000000        0.0000000000000000        2114.9731034897186        0.0000000000000000     
           2   2114.9731034897186       -0.0000000000000000       -0.0000000000000000       -2114.9731034897186        0.0000000000000000     
           3   2114.9731034897186       -871.57778078892420       -1841.6630833480542        567.22172732796844        0.0000000000000000     
           4   2114.9731034897186        871.57778078892420        1841.6630833480542       -567.22172732796844        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6029434862918731E-006           OLP:   -1.6029434862918739E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.8756051926009793E-006           OLP:   -1.8756051926008827E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.6098E-08  +/-  0.3503E-10  (   0.575 %)
Integral      = 0.3246E-08  +/-  0.3571E-10  (   1.100 %)
Virtual       = -.1922E-11  +/-  0.1674E-10  ( 871.327 %)
Virtual ratio = -.2914E+00  +/-  0.3691E-03  (   0.127 %)
ABS virtual   = 0.2900E-08  +/-  0.1629E-10  (   0.562 %)
Born          = 0.1661E-07  +/-  0.7674E-10  (   0.462 %)
V  2          = -.1922E-11  +/-  0.1674E-10  ( 871.327 %)
B  2          = 0.1661E-07  +/-  0.7674E-10  (   0.462 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6098E-08  +/-  0.3503E-10  (   0.575 %)
accumulated results Integral      = 0.3246E-08  +/-  0.3571E-10  (   1.100 %)
accumulated results Virtual       = -.1922E-11  +/-  0.1674E-10  ( 871.327 %)
accumulated results Virtual ratio = -.2914E+00  +/-  0.3691E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2900E-08  +/-  0.1629E-10  (   0.562 %)
accumulated results Born          = 0.1661E-07  +/-  0.7674E-10  (   0.462 %)
accumulated results V  2          = -.1922E-11  +/-  0.1674E-10  ( 871.327 %)
accumulated results B  2          = 0.1661E-07  +/-  0.7674E-10  (   0.462 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   481532    11605  0.1059E-08  0.4976E-09  0.8620E+00
channel    2 :     1 T    16554    11053  0.1060E-08  0.5619E-09  0.8813E+00
channel    3 :     2 T    31003    21384  0.2006E-08  0.1049E-08  0.7667E+00
channel    4 :     2 T    30783    21494  0.1972E-08  0.1138E-08  0.9258E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0978267869243851E-009  +/-   3.5033065553741779E-011
 Final result:   3.2461508049896104E-009  +/-   3.5705863622911735E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363371
   Stability unknown:                                          0
   Stable PS point:                                       363371
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363371
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363371
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.37169147    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.39532185    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.02165413    
 Time spent in Integrated_CT :    8.73089600    
 Time spent in Virtuals :    514.738770    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.24225044    
 Time spent in N1body_prefactor :   0.711232781    
 Time spent in Adding_alphas_pdf :    5.42393875    
 Time spent in Reweight_scale :    29.7435036    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    12.9577332    
 Time spent in Applying_cuts :    5.20386553    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    35.0670395    
 Time spent in Other_tasks :    22.1708374    
 Time spent in Total :    650.778748    
Time in seconds: 659



LOG file for integration channel /P0_bxb_emep/all_G1_57, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6751
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          57
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 179949
  with seed                   49
 Ranmar initialization seeds         124        8892
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.438510D+04 0.438510D+04  1.00
 muF1, muF1_reference: 0.438510D+04 0.438510D+04  1.00
 muF2, muF2_reference: 0.438510D+04 0.438510D+04  1.00
 QES,  QES_reference:  0.438510D+04 0.438510D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4735364768352533E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4735364768352533E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5993380694770259E-006           OLP:   -1.5993380694770240E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.8690296924858699E-006           OLP:   -1.8690296924858767E-006
  FINITE:
           OLP:   -1.7391389429119376E-004
           BORN:    5.9919945906845439E-004
  MOMENTA (Exyzm): 
           1   2192.5480607832337        0.0000000000000000        0.0000000000000000        2192.5480607832337        0.0000000000000000     
           2   2192.5480607832337       -0.0000000000000000       -0.0000000000000000       -2192.5480607832337        0.0000000000000000     
           3   2192.5480607832337       -2100.4581662495789       -215.92349948408807        590.52479461096164        0.0000000000000000     
           4   2192.5480607832337        2100.4581662495789        215.92349948408807       -590.52479461096164        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5993380694770259E-006           OLP:   -1.5993380694770240E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.8690296924858695E-006           OLP:   -1.8690296924858767E-006
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 Error #15 in genps_fks.f  -1.0281801223754883E-006           4
ABS integral  = 0.6093E-08  +/-  0.3475E-10  (   0.570 %)
Integral      = 0.3210E-08  +/-  0.3543E-10  (   1.104 %)
Virtual       = -.5740E-11  +/-  0.1673E-10  ( 291.563 %)
Virtual ratio = -.2915E+00  +/-  0.3689E-03  (   0.127 %)
ABS virtual   = 0.2915E-08  +/-  0.1628E-10  (   0.558 %)
Born          = 0.1664E-07  +/-  0.7581E-10  (   0.455 %)
V  2          = -.5740E-11  +/-  0.1673E-10  ( 291.563 %)
B  2          = 0.1664E-07  +/-  0.7581E-10  (   0.455 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6093E-08  +/-  0.3475E-10  (   0.570 %)
accumulated results Integral      = 0.3210E-08  +/-  0.3543E-10  (   1.104 %)
accumulated results Virtual       = -.5740E-11  +/-  0.1673E-10  ( 291.563 %)
accumulated results Virtual ratio = -.2915E+00  +/-  0.3689E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2915E-08  +/-  0.1628E-10  (   0.558 %)
accumulated results Born          = 0.1664E-07  +/-  0.7581E-10  (   0.455 %)
accumulated results V  2          = -.5740E-11  +/-  0.1673E-10  ( 291.563 %)
accumulated results B  2          = 0.1664E-07  +/-  0.7581E-10  (   0.455 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   481105    11605  0.1059E-08  0.4938E-09  0.8781E+00
channel    2 :     1 T    16782    11053  0.1063E-08  0.5611E-09  0.8418E+00
channel    3 :     2 T    31059    21384  0.1979E-08  0.1020E-08  0.8215E+00
channel    4 :     2 T    30926    21494  0.1990E-08  0.1135E-08  0.9105E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0926048344328183E-009  +/-   3.4749939893946379E-011
 Final result:   3.2095290502646567E-009  +/-   3.5432469698950070E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363626
   Stability unknown:                                          0
   Stable PS point:                                       363626
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363626
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363626
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.35907495    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.45121336    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.00837135    
 Time spent in Integrated_CT :    8.87493896    
 Time spent in Virtuals :    514.223145    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.19817781    
 Time spent in N1body_prefactor :   0.712109327    
 Time spent in Adding_alphas_pdf :    5.43791628    
 Time spent in Reweight_scale :    29.5849113    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.0516777    
 Time spent in Applying_cuts :    5.15072918    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    34.6225853    
 Time spent in Other_tasks :    22.2467651    
 Time spent in Total :    649.921631    
Time in seconds: 658



LOG file for integration channel /P0_bxb_emep/all_G1_58, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6754
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          58
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 183106
  with seed                   49
 Ranmar initialization seeds         124       12049
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.427590D+04 0.427590D+04  1.00
 muF1, muF1_reference: 0.427590D+04 0.427590D+04  1.00
 muF2, muF2_reference: 0.427590D+04 0.427590D+04  1.00
 QES,  QES_reference:  0.427590D+04 0.427590D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4913070479932078E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4913070479932078E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5235879794075451E-006           OLP:   -1.5235879794075478E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7308922057761300E-006           OLP:   -1.7308922057761344E-006
  FINITE:
           OLP:   -1.6168817385398541E-004
           BORN:    5.7081933490317298E-004
  MOMENTA (Exyzm): 
           1   2137.9505399491050        0.0000000000000000        0.0000000000000000        2137.9505399491050        0.0000000000000000     
           2   2137.9505399491050       -0.0000000000000000       -0.0000000000000000       -2137.9505399491050        0.0000000000000000     
           3   2137.9505399491050       -2034.2076313270500       -192.11540381466074        629.22451917943624        0.0000000000000000     
           4   2137.9505399491050        2034.2076313270500        192.11540381466074       -629.22451917943624        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5235879794075451E-006           OLP:   -1.5235879794075478E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7308922057761304E-006           OLP:   -1.7308922057761344E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.6084E-08  +/-  0.3418E-10  (   0.562 %)
Integral      = 0.3213E-08  +/-  0.3487E-10  (   1.085 %)
Virtual       = -.2266E-10  +/-  0.1655E-10  (  73.024 %)
Virtual ratio = -.2916E+00  +/-  0.3697E-03  (   0.127 %)
ABS virtual   = 0.2911E-08  +/-  0.1609E-10  (   0.553 %)
Born          = 0.1666E-07  +/-  0.7628E-10  (   0.458 %)
V  2          = -.2266E-10  +/-  0.1655E-10  (  73.024 %)
B  2          = 0.1666E-07  +/-  0.7628E-10  (   0.458 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6084E-08  +/-  0.3418E-10  (   0.562 %)
accumulated results Integral      = 0.3213E-08  +/-  0.3487E-10  (   1.085 %)
accumulated results Virtual       = -.2266E-10  +/-  0.1655E-10  (  73.024 %)
accumulated results Virtual ratio = -.2916E+00  +/-  0.3697E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2911E-08  +/-  0.1609E-10  (   0.553 %)
accumulated results Born          = 0.1666E-07  +/-  0.7628E-10  (   0.458 %)
accumulated results V  2          = -.2266E-10  +/-  0.1655E-10  (  73.024 %)
accumulated results B  2          = 0.1666E-07  +/-  0.7628E-10  (   0.458 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                         3                         4
channel    1 :     1 T   481147    11605  0.1067E-08  0.5038E-09  0.3291E+00
channel    2 :     1 T    16566    11053  0.1038E-08  0.5462E-09  0.8664E+00
channel    3 :     2 T    30926    21384  0.1978E-08  0.1003E-08  0.8250E+00
channel    4 :     2 T    31232    21494  0.2002E-08  0.1161E-08  0.9441E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0840911222153972E-009  +/-   3.4178691953413588E-011
 Final result:   3.2132726647572376E-009  +/-   3.4869133316384392E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363040
   Stability unknown:                                          0
   Stable PS point:                                       363040
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363040
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363040
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.37652194    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.42043877    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    3.96232748    
 Time spent in Integrated_CT :    8.82312012    
 Time spent in Virtuals :    514.009033    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.17437696    
 Time spent in N1body_prefactor :   0.710327506    
 Time spent in Adding_alphas_pdf :    5.41763163    
 Time spent in Reweight_scale :    29.4411983    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.0312805    
 Time spent in Applying_cuts :    5.13715029    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    34.6111031    
 Time spent in Other_tasks :    22.2044678    
 Time spent in Total :    649.318909    
Time in seconds: 656



LOG file for integration channel /P0_bxb_emep/all_G1_59, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6737
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          59
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 186263
  with seed                   49
 Ranmar initialization seeds         124       15206
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.437440D+04 0.437440D+04  1.00
 muF1, muF1_reference: 0.437440D+04 0.437440D+04  1.00
 muF2, muF2_reference: 0.437440D+04 0.437440D+04  1.00
 QES,  QES_reference:  0.437440D+04 0.437440D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4752532882049541E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4752532882049541E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7779438516582218E-006           OLP:   -1.7779438516582207E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2025367254461367E-006           OLP:   -2.2025367254461896E-006
  FINITE:
           OLP:   -1.9575603573507847E-004
           BORN:    6.6611494748952714E-004
  MOMENTA (Exyzm): 
           1   2187.2021243110948        0.0000000000000000        0.0000000000000000        2187.2021243110948        0.0000000000000000     
           2   2187.2021243110948       -0.0000000000000000       -0.0000000000000000       -2187.2021243110948        0.0000000000000000     
           3   2187.2021243110948       -2108.6312530254490       -343.31319128442971        468.68264747629627        0.0000000000000000     
           4   2187.2021243110948        2108.6312530254490        343.31319128442971       -468.68264747629627        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7779438516582218E-006           OLP:   -1.7779438516582207E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2025367254461371E-006           OLP:   -2.2025367254461896E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
ABS integral  = 0.6112E-08  +/-  0.3518E-10  (   0.576 %)
Integral      = 0.3240E-08  +/-  0.3585E-10  (   1.106 %)
Virtual       = 0.2243E-10  +/-  0.1733E-10  (  77.256 %)
Virtual ratio = -.2913E+00  +/-  0.3700E-03  (   0.127 %)
ABS virtual   = 0.2941E-08  +/-  0.1687E-10  (   0.574 %)
Born          = 0.1673E-07  +/-  0.7680E-10  (   0.459 %)
V  2          = 0.2243E-10  +/-  0.1733E-10  (  77.256 %)
B  2          = 0.1673E-07  +/-  0.7680E-10  (   0.459 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6112E-08  +/-  0.3518E-10  (   0.576 %)
accumulated results Integral      = 0.3240E-08  +/-  0.3585E-10  (   1.106 %)
accumulated results Virtual       = 0.2243E-10  +/-  0.1733E-10  (  77.256 %)
accumulated results Virtual ratio = -.2913E+00  +/-  0.3700E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2941E-08  +/-  0.1687E-10  (   0.574 %)
accumulated results Born          = 0.1673E-07  +/-  0.7680E-10  (   0.459 %)
accumulated results V  2          = 0.2243E-10  +/-  0.1733E-10  (  77.256 %)
accumulated results B  2          = 0.1673E-07  +/-  0.7680E-10  (   0.459 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                   2                         3                        4
channel    1 :     1 T   480910    11605  0.1058E-08  0.4980E-09  0.8988E+00
channel    2 :     1 T    16573    11053  0.1070E-08  0.5860E-09  0.9812E+00
channel    3 :     2 T    31278    21384  0.1994E-08  0.1021E-08  0.8217E+00
channel    4 :     2 T    31110    21494  0.1990E-08  0.1135E-08  0.8761E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1116082087513430E-009  +/-   3.5178669837828362E-011
 Final result:   3.2403626093554468E-009  +/-   3.5853862077506575E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363367
   Stability unknown:                                          0
   Stable PS point:                                       363367
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363367
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363367
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.38626933    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.40166712    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    3.97825742    
 Time spent in Integrated_CT :    8.78845215    
 Time spent in Virtuals :    517.138123    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.13838291    
 Time spent in N1body_prefactor :   0.720293403    
 Time spent in Adding_alphas_pdf :    5.38678265    
 Time spent in Reweight_scale :    29.5017471    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    12.9607811    
 Time spent in Applying_cuts :    5.10430527    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    34.6101151    
 Time spent in Other_tasks :    22.1384277    
 Time spent in Total :    652.253540    
Time in seconds: 661



LOG file for integration channel /P0_bxb_emep/all_G1_60, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6746
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          60
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 189420
  with seed                   49
 Ranmar initialization seeds         124       18363
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.424583D+04 0.424583D+04  1.00
 muF1, muF1_reference: 0.424583D+04 0.424583D+04  1.00
 muF2, muF2_reference: 0.424583D+04 0.424583D+04  1.00
 QES,  QES_reference:  0.424583D+04 0.424583D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4962943852281222E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4962943852281222E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5974346602777346E-006           OLP:   -1.5974346602777350E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.8654936128825036E-006           OLP:   -1.8654936128827236E-006
  FINITE:
           OLP:   -1.7048432601640139E-004
           BORN:    5.9848633794392931E-004
  MOMENTA (Exyzm): 
           1   2122.9174583938852        0.0000000000000000        0.0000000000000000        2122.9174583938852        0.0000000000000000     
           2   2122.9174583938852       -0.0000000000000000       -0.0000000000000000       -2122.9174583938852        0.0000000000000000     
           3   2122.9174583938852       -1642.1362329851233       -1217.2521690640810        573.11803703929263        0.0000000000000000     
           4   2122.9174583938852        1642.1362329851233        1217.2521690640810       -573.11803703929263        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5974346602777346E-006           OLP:   -1.5974346602777350E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -1.8654936128825038E-006           OLP:   -1.8654936128827236E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
ABS integral  = 0.6153E-08  +/-  0.3501E-10  (   0.569 %)
Integral      = 0.3296E-08  +/-  0.3569E-10  (   1.083 %)
Virtual       = 0.1276E-10  +/-  0.1706E-10  ( 133.727 %)
Virtual ratio = -.2916E+00  +/-  0.3691E-03  (   0.127 %)
ABS virtual   = 0.2953E-08  +/-  0.1660E-10  (   0.562 %)
Born          = 0.1685E-07  +/-  0.7723E-10  (   0.458 %)
V  2          = 0.1276E-10  +/-  0.1706E-10  ( 133.727 %)
B  2          = 0.1685E-07  +/-  0.7723E-10  (   0.458 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6153E-08  +/-  0.3501E-10  (   0.569 %)
accumulated results Integral      = 0.3296E-08  +/-  0.3569E-10  (   1.083 %)
accumulated results Virtual       = 0.1276E-10  +/-  0.1706E-10  ( 133.727 %)
accumulated results Virtual ratio = -.2916E+00  +/-  0.3691E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2953E-08  +/-  0.1660E-10  (   0.562 %)
accumulated results Born          = 0.1685E-07  +/-  0.7723E-10  (   0.458 %)
accumulated results V  2          = 0.1276E-10  +/-  0.1706E-10  ( 133.727 %)
accumulated results B  2          = 0.1685E-07  +/-  0.7723E-10  (   0.458 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   480821    11605  0.1060E-08  0.4959E-09  0.7999E+00
channel    2 :     1 T    16915    11053  0.1081E-08  0.5789E-09  0.8892E+00
channel    3 :     2 T    30896    21384  0.1979E-08  0.1027E-08  0.7996E+00
channel    4 :     2 T    31243    21494  0.2033E-08  0.1194E-08  0.9308E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1534940726310710E-009  +/-   3.5006402421232732E-011
 Final result:   3.2956450426356701E-009  +/-   3.5688668287728471E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363520
   Stability unknown:                                          0
   Stable PS point:                                       363520
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363520
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363520
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.35016119    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.40295529    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.01367283    
 Time spent in Integrated_CT :    8.73339844    
 Time spent in Virtuals :    517.242493    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.19828510    
 Time spent in N1body_prefactor :   0.720948458    
 Time spent in Adding_alphas_pdf :    5.37816095    
 Time spent in Reweight_scale :    29.4451370    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.0613651    
 Time spent in Applying_cuts :    5.12257481    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    34.5761223    
 Time spent in Other_tasks :    22.2598267    
 Time spent in Total :    652.505066    
Time in seconds: 661



LOG file for integration channel /P0_bxb_emep/all_G1_61, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6747
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          61
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 192577
  with seed                   49
 Ranmar initialization seeds         124       21520
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.413896D+04 0.413896D+04  1.00
 muF1, muF1_reference: 0.413896D+04 0.413896D+04  1.00
 muF2, muF2_reference: 0.413896D+04 0.413896D+04  1.00
 QES,  QES_reference:  0.413896D+04 0.413896D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5143661532185199E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5143661532185199E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8383163223239113E-006           OLP:   -1.8383163223239121E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.3177270942308437E-006           OLP:   -2.3177270942309220E-006
  FINITE:
           OLP:   -1.9656665962780123E-004
           BORN:    6.8873377490063007E-004
  MOMENTA (Exyzm): 
           1   2069.4823652778673        0.0000000000000000        0.0000000000000000        2069.4823652778673        0.0000000000000000     
           2   2069.4823652778673       -0.0000000000000000       -0.0000000000000000       -2069.4823652778673        0.0000000000000000     
           3   2069.4823652778673       -1830.1305503078486       -876.12858139587195        407.15861514552904        0.0000000000000000     
           4   2069.4823652778673        1830.1305503078486        876.12858139587195       -407.15861514552904        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8383163223239113E-006           OLP:   -1.8383163223239121E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.3177270942308432E-006           OLP:   -2.3177270942309220E-006
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
ABS integral  = 0.6065E-08  +/-  0.3669E-10  (   0.605 %)
Integral      = 0.3180E-08  +/-  0.3733E-10  (   1.174 %)
Virtual       = -.4893E-10  +/-  0.1666E-10  (  34.046 %)
Virtual ratio = -.2912E+00  +/-  0.3690E-03  (   0.127 %)
ABS virtual   = 0.2893E-08  +/-  0.1620E-10  (   0.560 %)
Born          = 0.1666E-07  +/-  0.7681E-10  (   0.461 %)
V  2          = -.4893E-10  +/-  0.1666E-10  (  34.046 %)
B  2          = 0.1666E-07  +/-  0.7681E-10  (   0.461 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6065E-08  +/-  0.3669E-10  (   0.605 %)
accumulated results Integral      = 0.3180E-08  +/-  0.3733E-10  (   1.174 %)
accumulated results Virtual       = -.4893E-10  +/-  0.1666E-10  (  34.046 %)
accumulated results Virtual ratio = -.2912E+00  +/-  0.3690E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2893E-08  +/-  0.1620E-10  (   0.560 %)
accumulated results Born          = 0.1666E-07  +/-  0.7681E-10  (   0.461 %)
accumulated results V  2          = -.4893E-10  +/-  0.1666E-10  (  34.046 %)
accumulated results B  2          = 0.1666E-07  +/-  0.7681E-10  (   0.461 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                  2                          3                        4
channel    1 :     1 T   481083    11605  0.1064E-08  0.4986E-09  0.8317E+00
channel    2 :     1 T    16541    11053  0.1067E-08  0.5741E-09  0.9038E+00
channel    3 :     2 T    30965    21384  0.1954E-08  0.9988E-09  0.8109E+00
channel    4 :     2 T    31284    21494  0.1980E-08  0.1108E-08  0.7729E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0649383052048142E-009  +/-   3.6688274619751254E-011
 Final result:   3.1799249442450553E-009  +/-   3.7331865187834363E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363640
   Stability unknown:                                          0
   Stable PS point:                                       363640
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363640
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363640
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.39597619    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.41123724    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.00558949    
 Time spent in Integrated_CT :    8.80401611    
 Time spent in Virtuals :    514.711548    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.24682713    
 Time spent in N1body_prefactor :   0.728593826    
 Time spent in Adding_alphas_pdf :    5.42955923    
 Time spent in Reweight_scale :    29.4978886    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    12.8831720    
 Time spent in Applying_cuts :    5.12643433    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    34.6730957    
 Time spent in Other_tasks :    22.2245483    
 Time spent in Total :    650.138489    
Time in seconds: 658



LOG file for integration channel /P0_bxb_emep/all_G1_62, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6741
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          62
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 195734
  with seed                   49
 Ranmar initialization seeds         124       24677
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.422748D+04 0.422748D+04  1.00
 muF1, muF1_reference: 0.422748D+04 0.422748D+04  1.00
 muF2, muF2_reference: 0.422748D+04 0.422748D+04  1.00
 QES,  QES_reference:  0.422748D+04 0.422748D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4993595890333789E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4993595890333803E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4606960062132718E-006           OLP:   -1.4606960062132714E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6176861050987133E-006           OLP:   -1.6176861050988058E-006
  FINITE:
           OLP:   -1.5235862843598091E-004
           BORN:    5.4725656413133787E-004
  MOMENTA (Exyzm): 
           1   2113.7401980941545        0.0000000000000000        0.0000000000000000        2113.7401980941545        0.0000000000000000     
           2   2113.7401980941545       -0.0000000000000000       -0.0000000000000000       -2113.7401980941545        0.0000000000000000     
           3   2113.7401980941545       -1563.7287058804609       -1255.6840999327137        667.76313212149148        0.0000000000000000     
           4   2113.7401980941545        1563.7287058804609        1255.6840999327137       -667.76313212149148        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4606960062132718E-006           OLP:   -1.4606960062132714E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -1.6176861050987131E-006           OLP:   -1.6176861050988058E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
ABS integral  = 0.6156E-08  +/-  0.3546E-10  (   0.576 %)
Integral      = 0.3245E-08  +/-  0.3615E-10  (   1.114 %)
Virtual       = 0.5636E-11  +/-  0.1721E-10  ( 305.433 %)
Virtual ratio = -.2916E+00  +/-  0.3691E-03  (   0.127 %)
ABS virtual   = 0.2954E-08  +/-  0.1676E-10  (   0.567 %)
Born          = 0.1679E-07  +/-  0.7758E-10  (   0.462 %)
V  2          = 0.5636E-11  +/-  0.1721E-10  ( 305.433 %)
B  2          = 0.1679E-07  +/-  0.7758E-10  (   0.462 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6156E-08  +/-  0.3546E-10  (   0.576 %)
accumulated results Integral      = 0.3245E-08  +/-  0.3615E-10  (   1.114 %)
accumulated results Virtual       = 0.5636E-11  +/-  0.1721E-10  ( 305.433 %)
accumulated results Virtual ratio = -.2916E+00  +/-  0.3691E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2954E-08  +/-  0.1676E-10  (   0.567 %)
accumulated results Born          = 0.1679E-07  +/-  0.7758E-10  (   0.462 %)
accumulated results V  2          = 0.5636E-11  +/-  0.1721E-10  ( 305.433 %)
accumulated results B  2          = 0.1679E-07  +/-  0.7758E-10  (   0.462 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                      1                                            2
  2:  0                            1                   2                         3                        4
channel    1 :     1 T   480799    11605  0.1057E-08  0.4985E-09  0.8737E+00
channel    2 :     1 T    16601    11053  0.1056E-08  0.5436E-09  0.8978E+00
channel    3 :     2 T    31075    21384  0.2017E-08  0.1034E-08  0.7576E+00
channel    4 :     2 T    31400    21494  0.2027E-08  0.1169E-08  0.9643E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1562460826215844E-009  +/-   3.5463961777760621E-011
 Final result:   3.2454272992031169E-009  +/-   3.6146543791177202E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363378
   Stability unknown:                                          0
   Stable PS point:                                       363378
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363378
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363378
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.36914992    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.44888711    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.11275911    
 Time spent in Integrated_CT :    8.79602051    
 Time spent in Virtuals :    517.109375    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.18845701    
 Time spent in N1body_prefactor :   0.711667001    
 Time spent in Adding_alphas_pdf :    5.48720455    
 Time spent in Reweight_scale :    29.7467041    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.0884056    
 Time spent in Applying_cuts :    5.23453999    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    34.9934082    
 Time spent in Other_tasks :    22.3144531    
 Time spent in Total :    653.601013    
Time in seconds: 662



LOG file for integration channel /P0_bxb_emep/all_G1_63, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6758
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          63
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 198891
  with seed                   49
 Ranmar initialization seeds         124       27834
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.441512D+04 0.441512D+04  1.00
 muF1, muF1_reference: 0.441512D+04 0.441512D+04  1.00
 muF2, muF2_reference: 0.441512D+04 0.441512D+04  1.00
 QES,  QES_reference:  0.441512D+04 0.441512D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4687411337186538E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4687411337186538E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8295228470061884E-006           OLP:   -1.8295228470061905E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.3009513712143031E-006           OLP:   -2.3009513712143133E-006
  FINITE:
           OLP:   -2.0292044012333493E-004
           BORN:    6.8543925840391820E-004
  MOMENTA (Exyzm): 
           1   2207.5622524170344        0.0000000000000000        0.0000000000000000        2207.5622524170344        0.0000000000000000     
           2   2207.5622524170344       -0.0000000000000000       -0.0000000000000000       -2207.5622524170344        0.0000000000000000     
           3   2207.5622524170344       -1574.3182149465479       -1483.7151100308090        439.82124624709928        0.0000000000000000     
           4   2207.5622524170344        1574.3182149465479        1483.7151100308090       -439.82124624709928        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8295228470061884E-006           OLP:   -1.8295228470061905E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.3009513712143027E-006           OLP:   -2.3009513712143133E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6134E-08  +/-  0.3563E-10  (   0.581 %)
Integral      = 0.3264E-08  +/-  0.3630E-10  (   1.112 %)
Virtual       = 0.1770E-10  +/-  0.1719E-10  (  97.133 %)
Virtual ratio = -.2916E+00  +/-  0.3696E-03  (   0.127 %)
ABS virtual   = 0.2947E-08  +/-  0.1674E-10  (   0.568 %)
Born          = 0.1675E-07  +/-  0.7666E-10  (   0.458 %)
V  2          = 0.1770E-10  +/-  0.1719E-10  (  97.133 %)
B  2          = 0.1675E-07  +/-  0.7666E-10  (   0.458 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6134E-08  +/-  0.3563E-10  (   0.581 %)
accumulated results Integral      = 0.3264E-08  +/-  0.3630E-10  (   1.112 %)
accumulated results Virtual       = 0.1770E-10  +/-  0.1719E-10  (  97.133 %)
accumulated results Virtual ratio = -.2916E+00  +/-  0.3696E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2947E-08  +/-  0.1674E-10  (   0.568 %)
accumulated results Born          = 0.1675E-07  +/-  0.7666E-10  (   0.458 %)
accumulated results V  2          = 0.1770E-10  +/-  0.1719E-10  (  97.133 %)
accumulated results B  2          = 0.1675E-07  +/-  0.7666E-10  (   0.458 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   480795    11605  0.1057E-08  0.4949E-09  0.8389E+00
channel    2 :     1 T    16822    11053  0.1082E-08  0.5989E-09  0.9141E+00
channel    3 :     2 T    31178    21384  0.1992E-08  0.1027E-08  0.7994E+00
channel    4 :     2 T    31074    21494  0.2002E-08  0.1143E-08  0.8912E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1335019845122513E-009  +/-   3.5631222668902399E-011
 Final result:   3.2638519893835271E-009  +/-   3.6300834757234475E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363199
   Stability unknown:                                          0
   Stable PS point:                                       363199
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363199
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363199
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.37039137    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.41498899    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    3.98189807    
 Time spent in Integrated_CT :    8.82647705    
 Time spent in Virtuals :    515.870544    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.20214939    
 Time spent in N1body_prefactor :   0.721532464    
 Time spent in Adding_alphas_pdf :    5.92106247    
 Time spent in Reweight_scale :    31.1377983    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    12.9227905    
 Time spent in Applying_cuts :    5.13249731    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    34.7757454    
 Time spent in Other_tasks :    22.2037354    
 Time spent in Total :    653.481689    
Time in seconds: 661



LOG file for integration channel /P0_bxb_emep/all_G1_64, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6765
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          64
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 202048
  with seed                   49
 Ranmar initialization seeds         124         910
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.435060D+04 0.435060D+04  1.00
 muF1, muF1_reference: 0.435060D+04 0.435060D+04  1.00
 muF2, muF2_reference: 0.435060D+04 0.435060D+04  1.00
 QES,  QES_reference:  0.435060D+04 0.435060D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4790933472689697E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4790933472689697E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7575320225016290E-006           OLP:   -1.7575320225016269E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1638475092706865E-006           OLP:   -2.1638475092707217E-006
  FINITE:
           OLP:   -1.9270957645549461E-004
           BORN:    6.5846756059700635E-004
  MOMENTA (Exyzm): 
           1   2175.3002595074240        0.0000000000000000        0.0000000000000000        2175.3002595074240        0.0000000000000000     
           2   2175.3002595074240       -0.0000000000000000       -0.0000000000000000       -2175.3002595074240        0.0000000000000000     
           3   2175.3002595074240       -1435.1031388982324       -1562.9070829279158        479.30329632838897        0.0000000000000000     
           4   2175.3002595074240        1435.1031388982324        1562.9070829279158       -479.30329632838897        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7575320225016290E-006           OLP:   -1.7575320225016269E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1638475092706870E-006           OLP:   -2.1638475092707217E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 Error #15 in genps_fks.f  -1.0579824447631836E-006           3
ABS integral  = 0.6130E-08  +/-  0.3551E-10  (   0.579 %)
Integral      = 0.3212E-08  +/-  0.3619E-10  (   1.126 %)
Virtual       = -.1283E-10  +/-  0.1699E-10  ( 132.456 %)
Virtual ratio = -.2914E+00  +/-  0.3694E-03  (   0.127 %)
ABS virtual   = 0.2930E-08  +/-  0.1653E-10  (   0.564 %)
Born          = 0.1673E-07  +/-  0.7721E-10  (   0.462 %)
V  2          = -.1283E-10  +/-  0.1699E-10  ( 132.456 %)
B  2          = 0.1673E-07  +/-  0.7721E-10  (   0.462 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6130E-08  +/-  0.3551E-10  (   0.579 %)
accumulated results Integral      = 0.3212E-08  +/-  0.3619E-10  (   1.126 %)
accumulated results Virtual       = -.1283E-10  +/-  0.1699E-10  ( 132.456 %)
accumulated results Virtual ratio = -.2914E+00  +/-  0.3694E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2930E-08  +/-  0.1653E-10  (   0.564 %)
accumulated results Born          = 0.1673E-07  +/-  0.7721E-10  (   0.462 %)
accumulated results V  2          = -.1283E-10  +/-  0.1699E-10  ( 132.456 %)
accumulated results B  2          = 0.1673E-07  +/-  0.7721E-10  (   0.462 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                           1                   2                         3                         4
channel    1 :     1 T   481071    11605  0.1060E-08  0.5004E-09  0.8538E+00
channel    2 :     1 T    16727    11053  0.1063E-08  0.5498E-09  0.8968E+00
channel    3 :     2 T    31030    21384  0.1988E-08  0.1019E-08  0.7947E+00
channel    4 :     2 T    31046    21494  0.2019E-08  0.1143E-08  0.8905E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1299130060695963E-009  +/-   3.5506889853586728E-011
 Final result:   3.2123519360683737E-009  +/-   3.6185949008793784E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363255
   Stability unknown:                                          0
   Stable PS point:                                       363255
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363255
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363255
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.37584507    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.39097238    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.00969982    
 Time spent in Integrated_CT :    8.75543213    
 Time spent in Virtuals :    515.878723    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.23670006    
 Time spent in N1body_prefactor :   0.719675303    
 Time spent in Adding_alphas_pdf :    5.39744997    
 Time spent in Reweight_scale :    29.5862312    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    12.9739075    
 Time spent in Applying_cuts :    5.17292213    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    34.7381210    
 Time spent in Other_tasks :    22.1627197    
 Time spent in Total :    651.398315    
Time in seconds: 659



LOG file for integration channel /P0_bxb_emep/all_G1_65, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
        6739
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          65
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 205205
  with seed                   49
 Ranmar initialization seeds         124        4067
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.438516D+04 0.438516D+04  1.00
 muF1, muF1_reference: 0.438516D+04 0.438516D+04  1.00
 muF2, muF2_reference: 0.438516D+04 0.438516D+04  1.00
 QES,  QES_reference:  0.438516D+04 0.438516D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4735269222590217E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4735269222590217E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4087257502093747E-006           OLP:   -1.4087257502093753E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5251731772135635E-006           OLP:   -1.5251731772138989E-006
  FINITE:
           OLP:   -1.4848611585963062E-004
           BORN:    5.2778566558931350E-004
  MOMENTA (Exyzm): 
           1   2192.5778556670539        0.0000000000000000        0.0000000000000000        2192.5778556670539        0.0000000000000000     
           2   2192.5778556670539       -0.0000000000000000       -0.0000000000000000       -2192.5778556670539        0.0000000000000000     
           3   2192.5778556670539       -1308.6603823493685       -1599.1258522143892        733.21358798807466        0.0000000000000000     
           4   2192.5778556670539        1308.6603823493685        1599.1258522143892       -733.21358798807466        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4087257502093747E-006           OLP:   -1.4087257502093753E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5251731772135631E-006           OLP:   -1.5251731772138989E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 Error #15 in genps_fks.f  -1.0579824447631836E-006           3
ABS integral  = 0.6048E-08  +/-  0.3377E-10  (   0.558 %)
Integral      = 0.3219E-08  +/-  0.3445E-10  (   1.070 %)
Virtual       = -.1723E-10  +/-  0.1688E-10  (  97.975 %)
Virtual ratio = -.2918E+00  +/-  0.3690E-03  (   0.126 %)
ABS virtual   = 0.2905E-08  +/-  0.1642E-10  (   0.565 %)
Born          = 0.1663E-07  +/-  0.7680E-10  (   0.462 %)
V  2          = -.1723E-10  +/-  0.1688E-10  (  97.975 %)
B  2          = 0.1663E-07  +/-  0.7680E-10  (   0.462 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6048E-08  +/-  0.3377E-10  (   0.558 %)
accumulated results Integral      = 0.3219E-08  +/-  0.3445E-10  (   1.070 %)
accumulated results Virtual       = -.1723E-10  +/-  0.1688E-10  (  97.975 %)
accumulated results Virtual ratio = -.2918E+00  +/-  0.3690E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2905E-08  +/-  0.1642E-10  (   0.565 %)
accumulated results Born          = 0.1663E-07  +/-  0.7680E-10  (   0.462 %)
accumulated results V  2          = -.1723E-10  +/-  0.1688E-10  (  97.975 %)
accumulated results B  2          = 0.1663E-07  +/-  0.7680E-10  (   0.462 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   481341    11605  0.1057E-08  0.4959E-09  0.8960E+00
channel    2 :     1 T    16483    11053  0.1033E-08  0.5383E-09  0.9630E+00
channel    3 :     2 T    31008    21384  0.1968E-08  0.1022E-08  0.8002E+00
channel    4 :     2 T    31038    21494  0.1990E-08  0.1163E-08  0.9431E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0481769018792343E-009  +/-   3.3766597357938102E-011
 Final result:   3.2190748964961511E-009  +/-   3.4453035557160189E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    362989
   Stability unknown:                                          0
   Stable PS point:                                       362989
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 362989
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       362989
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.37849879    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.42669630    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    3.99997401    
 Time spent in Integrated_CT :    8.87927246    
 Time spent in Virtuals :    516.223816    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.22492790    
 Time spent in N1body_prefactor :   0.720308423    
 Time spent in Adding_alphas_pdf :    5.43365383    
 Time spent in Reweight_scale :    29.5595188    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.1090336    
 Time spent in Applying_cuts :    5.18035889    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    34.7311935    
 Time spent in Other_tasks :    22.0230103    
 Time spent in Total :    651.890259    
Time in seconds: 660



LOG file for integration channel /P0_bxb_emep/all_G1_66, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24135
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          66
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 208362
  with seed                   49
 Ranmar initialization seeds         124        7224
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.414244D+04 0.414244D+04  1.00
 muF1, muF1_reference: 0.414244D+04 0.414244D+04  1.00
 muF2, muF2_reference: 0.414244D+04 0.414244D+04  1.00
 QES,  QES_reference:  0.414244D+04 0.414244D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5137695939884147E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5137695939884161E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7373777433768315E-006           OLP:   -1.7373777433768318E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1257285687375337E-006           OLP:   -2.1257285687375884E-006
  FINITE:
           OLP:   -1.8500671106292440E-004
           BORN:    6.5091666602382699E-004
  MOMENTA (Exyzm): 
           1   2071.2206813161065        0.0000000000000000        0.0000000000000000        2071.2206813161065        0.0000000000000000     
           2   2071.2206813161065       -0.0000000000000000       -0.0000000000000000       -2071.2206813161065        0.0000000000000000     
           3   2071.2206813161065       -2000.0356782054339       -264.41968447810763        468.92923461582751        0.0000000000000000     
           4   2071.2206813161065        2000.0356782054339        264.41968447810763       -468.92923461582751        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7373777433768315E-006           OLP:   -1.7373777433768318E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1257285687375329E-006           OLP:   -2.1257285687375884E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.6150E-08  +/-  0.3723E-10  (   0.605 %)
Integral      = 0.3266E-08  +/-  0.3788E-10  (   1.160 %)
Virtual       = 0.6313E-11  +/-  0.1683E-10  ( 266.614 %)
Virtual ratio = -.2915E+00  +/-  0.3685E-03  (   0.126 %)
ABS virtual   = 0.2944E-08  +/-  0.1637E-10  (   0.556 %)
Born          = 0.1680E-07  +/-  0.7681E-10  (   0.457 %)
V  2          = 0.6313E-11  +/-  0.1683E-10  ( 266.614 %)
B  2          = 0.1680E-07  +/-  0.7681E-10  (   0.457 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6150E-08  +/-  0.3723E-10  (   0.605 %)
accumulated results Integral      = 0.3266E-08  +/-  0.3788E-10  (   1.160 %)
accumulated results Virtual       = 0.6313E-11  +/-  0.1683E-10  ( 266.614 %)
accumulated results Virtual ratio = -.2915E+00  +/-  0.3685E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2944E-08  +/-  0.1637E-10  (   0.556 %)
accumulated results Born          = 0.1680E-07  +/-  0.7681E-10  (   0.457 %)
accumulated results V  2          = 0.6313E-11  +/-  0.1683E-10  ( 266.614 %)
accumulated results B  2          = 0.1680E-07  +/-  0.7681E-10  (   0.457 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   480484    11605  0.1055E-08  0.4926E-09  0.8397E+00
channel    2 :     1 T    16907    11053  0.1068E-08  0.5590E-09  0.7985E+00
channel    3 :     2 T    31051    21384  0.1994E-08  0.1021E-08  0.6867E+00
channel    4 :     2 T    31429    21494  0.2034E-08  0.1194E-08  0.9563E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1499834405962305E-009  +/-   3.7229244060185338E-011
 Final result:   3.2662340275424838E-009  +/-   3.7875018224680429E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363520
   Stability unknown:                                          0
   Stable PS point:                                       363520
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363520
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363520
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.19226074    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.79056406    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.16274309    
 Time spent in Integrated_CT :    9.00158691    
 Time spent in Virtuals :    567.512512    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.04816341    
 Time spent in N1body_prefactor :   0.594545960    
 Time spent in Adding_alphas_pdf :    5.75218248    
 Time spent in Reweight_scale :    26.6812401    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.7129993    
 Time spent in Applying_cuts :    4.93248463    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.1751289    
 Time spent in Other_tasks :    20.0505981    
 Time spent in Total :    701.606995    
Time in seconds: 798



LOG file for integration channel /P0_bxb_emep/all_G1_67, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24132
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          67
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 211519
  with seed                   49
 Ranmar initialization seeds         124       10381
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.441985D+04 0.441985D+04  1.00
 muF1, muF1_reference: 0.441985D+04 0.441985D+04  1.00
 muF2, muF2_reference: 0.441985D+04 0.441985D+04  1.00
 QES,  QES_reference:  0.441985D+04 0.441985D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4679899333009600E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4679899333009600E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6993787945605244E-006           OLP:   -1.6993787945605248E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0544688797507307E-006           OLP:   -2.0544688797507523E-006
  FINITE:
           OLP:   -1.8732649685725307E-004
           BORN:    6.3668018281215271E-004
  MOMENTA (Exyzm): 
           1   2209.9253686690336        0.0000000000000000        0.0000000000000000        2209.9253686690336        0.0000000000000000     
           2   2209.9253686690336       -0.0000000000000000       -0.0000000000000000       -2209.9253686690336        0.0000000000000000     
           3   2209.9253686690336       -1282.1712667836628       -1721.4586688019165        525.72524128871328        0.0000000000000000     
           4   2209.9253686690336        1282.1712667836628        1721.4586688019165       -525.72524128871328        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6993787945605244E-006           OLP:   -1.6993787945605248E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0544688797507307E-006           OLP:   -2.0544688797507523E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 Error #15 in genps_fks.f  -1.0132789611816406E-006           4
ABS integral  = 0.6150E-08  +/-  0.5318E-10  (   0.865 %)
Integral      = 0.3153E-08  +/-  0.5365E-10  (   1.701 %)
Virtual       = -.3295E-10  +/-  0.1672E-10  (  50.726 %)
Virtual ratio = -.2917E+00  +/-  0.3692E-03  (   0.127 %)
ABS virtual   = 0.2938E-08  +/-  0.1625E-10  (   0.553 %)
Born          = 0.1676E-07  +/-  0.7666E-10  (   0.458 %)
V  2          = -.3295E-10  +/-  0.1672E-10  (  50.726 %)
B  2          = 0.1676E-07  +/-  0.7666E-10  (   0.458 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6150E-08  +/-  0.5318E-10  (   0.865 %)
accumulated results Integral      = 0.3153E-08  +/-  0.5365E-10  (   1.701 %)
accumulated results Virtual       = -.3295E-10  +/-  0.1672E-10  (  50.726 %)
accumulated results Virtual ratio = -.2917E+00  +/-  0.3692E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2938E-08  +/-  0.1625E-10  (   0.553 %)
accumulated results Born          = 0.1676E-07  +/-  0.7666E-10  (   0.458 %)
accumulated results V  2          = -.3295E-10  +/-  0.1672E-10  (  50.726 %)
accumulated results B  2          = 0.1676E-07  +/-  0.7666E-10  (   0.458 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                   2                         3                        4
channel    1 :     1 T   480582    11605  0.1061E-08  0.4995E-09  0.8677E+00
channel    2 :     1 T    16826    11053  0.1114E-08  0.5315E-09  0.3376E+00
channel    3 :     2 T    31235    21384  0.1990E-08  0.9911E-09  0.7625E+00
channel    4 :     2 T    31228    21494  0.1985E-08  0.1131E-08  0.9729E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1496600149279569E-009  +/-   5.3183316440050191E-011
 Final result:   3.1533625451865111E-009  +/-   5.3649348924152439E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363131
   Stability unknown:                                          0
   Stable PS point:                                       363131
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363131
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363131
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.19343460    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.83859396    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.12790680    
 Time spent in Integrated_CT :    8.95642090    
 Time spent in Virtuals :    568.287476    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.10008144    
 Time spent in N1body_prefactor :   0.601878881    
 Time spent in Adding_alphas_pdf :    5.65367889    
 Time spent in Reweight_scale :    26.3610916    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.7273674    
 Time spent in Applying_cuts :    4.87961578    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.0139771    
 Time spent in Other_tasks :    19.9674072    
 Time spent in Total :    701.708923    
Time in seconds: 798



LOG file for integration channel /P0_bxb_emep/all_G1_68, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24140
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          68
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 214676
  with seed                   49
 Ranmar initialization seeds         124       13538
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.433226D+04 0.433226D+04  1.00
 muF1, muF1_reference: 0.433226D+04 0.433226D+04  1.00
 muF2, muF2_reference: 0.433226D+04 0.433226D+04  1.00
 QES,  QES_reference:  0.433226D+04 0.433226D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4820697029710947E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4820697029710947E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6924300958810637E-006           OLP:   -1.6924300958810634E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0414500981411749E-006           OLP:   -2.0414500981410249E-006
  FINITE:
           OLP:   -1.8435314705744700E-004
           BORN:    6.3407682047780648E-004
  MOMENTA (Exyzm): 
           1   2166.1279410696320        0.0000000000000000        0.0000000000000000        2166.1279410696320        0.0000000000000000     
           2   2166.1279410696320       -0.0000000000000000       -0.0000000000000000       -2166.1279410696320        0.0000000000000000     
           3   2166.1279410696320       -1429.7754992605790       -1541.9156230822041        519.95046888308752        0.0000000000000000     
           4   2166.1279410696320        1429.7754992605790        1541.9156230822041       -519.95046888308752        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6924300958810637E-006           OLP:   -1.6924300958810634E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -2.0414500981411749E-006           OLP:   -2.0414500981410249E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.6158E-08  +/-  0.3429E-10  (   0.557 %)
Integral      = 0.3304E-08  +/-  0.3499E-10  (   1.059 %)
Virtual       = 0.2363E-10  +/-  0.1735E-10  (  73.440 %)
Virtual ratio = -.2914E+00  +/-  0.3691E-03  (   0.127 %)
ABS virtual   = 0.2968E-08  +/-  0.1689E-10  (   0.569 %)
Born          = 0.1688E-07  +/-  0.7836E-10  (   0.464 %)
V  2          = 0.2363E-10  +/-  0.1735E-10  (  73.440 %)
B  2          = 0.1688E-07  +/-  0.7836E-10  (   0.464 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6158E-08  +/-  0.3429E-10  (   0.557 %)
accumulated results Integral      = 0.3304E-08  +/-  0.3499E-10  (   1.059 %)
accumulated results Virtual       = 0.2363E-10  +/-  0.1735E-10  (  73.440 %)
accumulated results Virtual ratio = -.2914E+00  +/-  0.3691E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2968E-08  +/-  0.1689E-10  (   0.569 %)
accumulated results Born          = 0.1688E-07  +/-  0.7836E-10  (   0.464 %)
accumulated results V  2          = 0.2363E-10  +/-  0.1735E-10  (  73.440 %)
accumulated results B  2          = 0.1688E-07  +/-  0.7836E-10  (   0.464 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   480945    11605  0.1059E-08  0.4966E-09  0.8848E+00
channel    2 :     1 T    16637    11053  0.1073E-08  0.5839E-09  0.9610E+00
channel    3 :     2 T    31154    21384  0.2025E-08  0.1056E-08  0.8216E+00
channel    4 :     2 T    31130    21494  0.2002E-08  0.1167E-08  0.9470E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1583389313547966E-009  +/-   3.4291852054656781E-011
 Final result:   3.3035144676526829E-009  +/-   3.4988251391209512E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363743
   Stability unknown:                                          0
   Stable PS point:                                       363743
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363743
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363743
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.23407495    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.90084982    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.24524689    
 Time spent in Integrated_CT :    9.25549316    
 Time spent in Virtuals :    569.501099    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.12453747    
 Time spent in N1body_prefactor :   0.619095802    
 Time spent in Adding_alphas_pdf :    5.95924520    
 Time spent in Reweight_scale :    27.3708935    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.8845510    
 Time spent in Applying_cuts :    5.02787113    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.0288467    
 Time spent in Other_tasks :    20.2931519    
 Time spent in Total :    706.444946    
Time in seconds: 797



LOG file for integration channel /P0_bxb_emep/all_G1_69, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24139
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          69
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 217833
  with seed                   49
 Ranmar initialization seeds         124       16695
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.443494D+04 0.443494D+04  1.00
 muF1, muF1_reference: 0.443494D+04 0.443494D+04  1.00
 muF2, muF2_reference: 0.443494D+04 0.443494D+04  1.00
 QES,  QES_reference:  0.443494D+04 0.443494D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4655975595822696E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4655975595822696E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6143636939259636E-006           OLP:   -1.6143636939259642E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.8966722344799435E-006           OLP:   -1.8966722344798936E-006
  FINITE:
           OLP:   -1.7696992701516981E-004
           BORN:    6.0482887927284764E-004
  MOMENTA (Exyzm): 
           1   2217.4715136887453        0.0000000000000000        0.0000000000000000        2217.4715136887453        0.0000000000000000     
           2   2217.4715136887453       -0.0000000000000000       -0.0000000000000000       -2217.4715136887453        0.0000000000000000     
           3   2217.4715136887453       -1554.1512391838485       -1468.9419537894557        586.51801009140365        0.0000000000000000     
           4   2217.4715136887453        1554.1512391838485        1468.9419537894557       -586.51801009140365        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6143636939259636E-006           OLP:   -1.6143636939259642E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.8966722344799435E-006           OLP:   -1.8966722344798936E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.6122E-08  +/-  0.3490E-10  (   0.570 %)
Integral      = 0.3233E-08  +/-  0.3558E-10  (   1.101 %)
Virtual       = -.2076E-10  +/-  0.1684E-10  (  81.130 %)
Virtual ratio = -.2915E+00  +/-  0.3687E-03  (   0.126 %)
ABS virtual   = 0.2916E-08  +/-  0.1638E-10  (   0.562 %)
Born          = 0.1677E-07  +/-  0.7707E-10  (   0.460 %)
V  2          = -.2076E-10  +/-  0.1684E-10  (  81.130 %)
B  2          = 0.1677E-07  +/-  0.7707E-10  (   0.460 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6122E-08  +/-  0.3490E-10  (   0.570 %)
accumulated results Integral      = 0.3233E-08  +/-  0.3558E-10  (   1.101 %)
accumulated results Virtual       = -.2076E-10  +/-  0.1684E-10  (  81.130 %)
accumulated results Virtual ratio = -.2915E+00  +/-  0.3687E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2916E-08  +/-  0.1638E-10  (   0.562 %)
accumulated results Born          = 0.1677E-07  +/-  0.7707E-10  (   0.460 %)
accumulated results V  2          = -.2076E-10  +/-  0.1684E-10  (  81.130 %)
accumulated results B  2          = 0.1677E-07  +/-  0.7707E-10  (   0.460 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   481180    11605  0.1059E-08  0.4972E-09  0.8621E+00
channel    2 :     1 T    16458    11053  0.1051E-08  0.5667E-09  0.9332E+00
channel    3 :     2 T    31146    21384  0.2028E-08  0.1011E-08  0.7631E+00
channel    4 :     2 T    31084    21494  0.1984E-08  0.1159E-08  0.9217E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1216963517320105E-009  +/-   3.4897832993669180E-011
 Final result:   3.2332337132638737E-009  +/-   3.5582611182308452E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363552
   Stability unknown:                                          0
   Stable PS point:                                       363552
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363552
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363552
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.23028386    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.92304134    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.19355822    
 Time spent in Integrated_CT :    9.19958496    
 Time spent in Virtuals :    569.998718    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.17563343    
 Time spent in N1body_prefactor :   0.614135385    
 Time spent in Adding_alphas_pdf :    5.81181574    
 Time spent in Reweight_scale :    27.0896606    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.9507551    
 Time spent in Applying_cuts :    4.99337912    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.8995781    
 Time spent in Other_tasks :    20.1394043    
 Time spent in Total :    706.219604    
Time in seconds: 798



LOG file for integration channel /P0_bxb_emep/all_G1_70, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24125
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          70
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 220990
  with seed                   49
 Ranmar initialization seeds         124       19852
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.424323D+04 0.424323D+04  1.00
 muF1, muF1_reference: 0.424323D+04 0.424323D+04  1.00
 muF2, muF2_reference: 0.424323D+04 0.424323D+04  1.00
 QES,  QES_reference:  0.424323D+04 0.424323D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4967285827112234E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4967285827112248E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6667271386924878E-006           OLP:   -1.6667271386924876E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.9935102527226351E-006           OLP:   -1.9935102527226419E-006
  FINITE:
           OLP:   -1.7903891055312212E-004
           BORN:    6.2444708781666223E-004
  MOMENTA (Exyzm): 
           1   2121.6146040378840        0.0000000000000000        0.0000000000000000        2121.6146040378840        0.0000000000000000     
           2   2121.6146040378840       -0.0000000000000000       -0.0000000000000000       -2121.6146040378840        0.0000000000000000     
           3   2121.6146040378840       -2055.0384527369802       -34.925709701742207        526.16126866299771        0.0000000000000000     
           4   2121.6146040378840        2055.0384527369802        34.925709701742207       -526.16126866299771        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6667271386924878E-006           OLP:   -1.6667271386924876E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.9935102527226351E-006           OLP:   -1.9935102527226419E-006
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.6120E-08  +/-  0.3526E-10  (   0.576 %)
Integral      = 0.3228E-08  +/-  0.3594E-10  (   1.113 %)
Virtual       = -.1747E-10  +/-  0.1710E-10  (  97.880 %)
Virtual ratio = -.2923E+00  +/-  0.3688E-03  (   0.126 %)
ABS virtual   = 0.2945E-08  +/-  0.1664E-10  (   0.565 %)
Born          = 0.1678E-07  +/-  0.7740E-10  (   0.461 %)
V  2          = -.1747E-10  +/-  0.1710E-10  (  97.880 %)
B  2          = 0.1678E-07  +/-  0.7740E-10  (   0.461 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6120E-08  +/-  0.3526E-10  (   0.576 %)
accumulated results Integral      = 0.3228E-08  +/-  0.3594E-10  (   1.113 %)
accumulated results Virtual       = -.1747E-10  +/-  0.1710E-10  (  97.880 %)
accumulated results Virtual ratio = -.2923E+00  +/-  0.3688E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2945E-08  +/-  0.1664E-10  (   0.565 %)
accumulated results Born          = 0.1678E-07  +/-  0.7740E-10  (   0.461 %)
accumulated results V  2          = -.1747E-10  +/-  0.1710E-10  (  97.880 %)
accumulated results B  2          = 0.1678E-07  +/-  0.7740E-10  (   0.461 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   481011    11605  0.1060E-08  0.4912E-09  0.8358E+00
channel    2 :     1 T    16716    11053  0.1062E-08  0.5630E-09  0.9136E+00
channel    3 :     2 T    31102    21384  0.1997E-08  0.1039E-08  0.8215E+00
channel    4 :     2 T    31045    21494  0.2002E-08  0.1135E-08  0.8859E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1203155036352661E-009  +/-   3.5261618989915654E-011
 Final result:   3.2278206403429090E-009  +/-   3.5939915408410233E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363642
   Stability unknown:                                          0
   Stable PS point:                                       363642
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363642
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363642
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21830165    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.77561665    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.15084028    
 Time spent in Integrated_CT :    9.03649902    
 Time spent in Virtuals :    567.880676    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.08641815    
 Time spent in N1body_prefactor :   0.602950096    
 Time spent in Adding_alphas_pdf :    5.69127989    
 Time spent in Reweight_scale :    26.9119663    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.5070400    
 Time spent in Applying_cuts :    4.92404652    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.4184151    
 Time spent in Other_tasks :    20.2022705    
 Time spent in Total :    702.406372    
Time in seconds: 797



LOG file for integration channel /P0_bxb_emep/all_G1_71, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24113
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          71
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 224147
  with seed                   49
 Ranmar initialization seeds         124       23009
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.429659D+04 0.429659D+04  1.00
 muF1, muF1_reference: 0.429659D+04 0.429659D+04  1.00
 muF2, muF2_reference: 0.429659D+04 0.429659D+04  1.00
 QES,  QES_reference:  0.429659D+04 0.429659D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4878989624900999E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 alpha_s value used for the virtuals is (for the first PS point):    7.4748969941025464E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7064677412998254E-006           OLP:   -1.7064677412998247E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0677283959251123E-006           OLP:   -2.0677283959250924E-006
  FINITE:
           OLP:   -1.8715499583155299E-004
           BORN:    6.3933608973553585E-004
  MOMENTA (Exyzm): 
           1   2188.3103134113858        0.0000000000000000        0.0000000000000000        2188.3103134113858        0.0000000000000000     
           2   2188.3103134113858       -0.0000000000000000       -0.0000000000000000       -2188.3103134113858        0.0000000000000000     
           3   2188.3103134113858       -1626.3980648116358       -1370.1923245126411        515.85303760494526        0.0000000000000000     
           4   2188.3103134113858        1626.3980648116358        1370.1923245126411       -515.85303760494526        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7064677412998254E-006           OLP:   -1.7064677412998247E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0677283959251128E-006           OLP:   -2.0677283959250924E-006
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.6150E-08  +/-  0.3495E-10  (   0.568 %)
Integral      = 0.3235E-08  +/-  0.3564E-10  (   1.102 %)
Virtual       = -.4484E-11  +/-  0.1709E-10  ( 381.051 %)
Virtual ratio = -.2910E+00  +/-  0.3697E-03  (   0.127 %)
ABS virtual   = 0.2951E-08  +/-  0.1662E-10  (   0.563 %)
Born          = 0.1681E-07  +/-  0.7737E-10  (   0.460 %)
V  2          = -.4484E-11  +/-  0.1709E-10  ( 381.051 %)
B  2          = 0.1681E-07  +/-  0.7737E-10  (   0.460 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6150E-08  +/-  0.3495E-10  (   0.568 %)
accumulated results Integral      = 0.3235E-08  +/-  0.3564E-10  (   1.102 %)
accumulated results Virtual       = -.4484E-11  +/-  0.1709E-10  ( 381.051 %)
accumulated results Virtual ratio = -.2910E+00  +/-  0.3697E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2951E-08  +/-  0.1662E-10  (   0.563 %)
accumulated results Born          = 0.1681E-07  +/-  0.7737E-10  (   0.460 %)
accumulated results V  2          = -.4484E-11  +/-  0.1709E-10  ( 381.051 %)
accumulated results B  2          = 0.1681E-07  +/-  0.7737E-10  (   0.460 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                   2                         3                        4
channel    1 :     1 T   480636    11605  0.1059E-08  0.4988E-09  0.8775E+00
channel    2 :     1 T    16644    11053  0.1055E-08  0.5320E-09  0.8597E+00
channel    3 :     2 T    31092    21384  0.2025E-08  0.1043E-08  0.7855E+00
channel    4 :     2 T    31501    21494  0.2010E-08  0.1161E-08  0.9703E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1495458077655299E-009  +/-   3.4947031790548652E-011
 Final result:   3.2350740906912354E-009  +/-   3.5639130775104360E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363433
   Stability unknown:                                          0
   Stable PS point:                                       363433
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363433
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363433
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.22487974    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.87658024    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.19056559    
 Time spent in Integrated_CT :    9.08679199    
 Time spent in Virtuals :    569.047913    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.11793613    
 Time spent in N1body_prefactor :   0.591213822    
 Time spent in Adding_alphas_pdf :    5.85780954    
 Time spent in Reweight_scale :    27.1442661    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.5893154    
 Time spent in Applying_cuts :    4.94234085    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.6460228    
 Time spent in Other_tasks :    20.1129150    
 Time spent in Total :    704.428467    
Time in seconds: 799



LOG file for integration channel /P0_bxb_emep/all_G1_72, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24117
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          72
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 227304
  with seed                   49
 Ranmar initialization seeds         124       26166
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.442628D+04 0.442628D+04  1.00
 muF1, muF1_reference: 0.442628D+04 0.442628D+04  1.00
 muF2, muF2_reference: 0.442628D+04 0.442628D+04  1.00
 QES,  QES_reference:  0.442628D+04 0.442628D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4669697288512318E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4669697288512318E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7004835913877064E-006           OLP:   -1.7004835913877068E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0565380454229566E-006           OLP:   -2.0565380454229214E-006
  FINITE:
           OLP:   -1.8761781563690857E-004
           BORN:    6.3709410009072070E-004
  MOMENTA (Exyzm): 
           1   2213.1395754395903        0.0000000000000000        0.0000000000000000        2213.1395754395903        0.0000000000000000     
           2   2213.1395754395903       -0.0000000000000000       -0.0000000000000000       -2213.1395754395903        0.0000000000000000     
           3   2213.1395754395903       -2070.9156066248820       -576.96926355452638        525.73928855257952        0.0000000000000000     
           4   2213.1395754395903        2070.9156066248820        576.96926355452638       -525.73928855257952        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7004835913877064E-006           OLP:   -1.7004835913877068E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0565380454229574E-006           OLP:   -2.0565380454229214E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.6125E-08  +/-  0.3543E-10  (   0.578 %)
Integral      = 0.3171E-08  +/-  0.3612E-10  (   1.139 %)
Virtual       = -.4258E-10  +/-  0.1674E-10  (  39.303 %)
Virtual ratio = -.2921E+00  +/-  0.3685E-03  (   0.126 %)
ABS virtual   = 0.2930E-08  +/-  0.1627E-10  (   0.555 %)
Born          = 0.1679E-07  +/-  0.7773E-10  (   0.463 %)
V  2          = -.4258E-10  +/-  0.1674E-10  (  39.303 %)
B  2          = 0.1679E-07  +/-  0.7773E-10  (   0.463 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6125E-08  +/-  0.3543E-10  (   0.578 %)
accumulated results Integral      = 0.3171E-08  +/-  0.3612E-10  (   1.139 %)
accumulated results Virtual       = -.4258E-10  +/-  0.1674E-10  (  39.303 %)
accumulated results Virtual ratio = -.2921E+00  +/-  0.3685E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2930E-08  +/-  0.1627E-10  (   0.555 %)
accumulated results Born          = 0.1679E-07  +/-  0.7773E-10  (   0.463 %)
accumulated results V  2          = -.4258E-10  +/-  0.1674E-10  (  39.303 %)
accumulated results B  2          = 0.1679E-07  +/-  0.7773E-10  (   0.463 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                           1                    2                         3                        4
channel    1 :     1 T   480983    11605  0.1058E-08  0.4945E-09  0.8316E+00
channel    2 :     1 T    16671    11053  0.1062E-08  0.5399E-09  0.9037E+00
channel    3 :     2 T    31177    21384  0.2015E-08  0.1031E-08  0.7854E+00
channel    4 :     2 T    31046    21494  0.1990E-08  0.1105E-08  0.8707E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1253540920801615E-009  +/-   3.5434422779291993E-011
 Final result:   3.1705517093959625E-009  +/-   3.6120060271765889E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363536
   Stability unknown:                                          0
   Stable PS point:                                       363536
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363536
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363536
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.25368214    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.87554646    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.26880646    
 Time spent in Integrated_CT :    9.21447754    
 Time spent in Virtuals :    571.171265    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.22004795    
 Time spent in N1body_prefactor :   0.623887181    
 Time spent in Adding_alphas_pdf :    5.73828125    
 Time spent in Reweight_scale :    27.4063759    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.9406652    
 Time spent in Applying_cuts :    5.06914520    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.6823921    
 Time spent in Other_tasks :    20.6046753    
 Time spent in Total :    708.069214    
Time in seconds: 799



LOG file for integration channel /P0_bxb_emep/all_G1_73, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24122
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          73
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 230461
  with seed                   49
 Ranmar initialization seeds         124       29323
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.411971D+04 0.411971D+04  1.00
 muF1, muF1_reference: 0.411971D+04 0.411971D+04  1.00
 muF2, muF2_reference: 0.411971D+04 0.411971D+04  1.00
 QES,  QES_reference:  0.411971D+04 0.411971D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5176816621335740E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5176816621335740E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7850654468618940E-006           OLP:   -1.7850654468618946E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2159804899454331E-006           OLP:   -2.2159804899453060E-006
  FINITE:
           OLP:   -1.8996470179686128E-004
           BORN:    6.6878308631219659E-004
  MOMENTA (Exyzm): 
           1   2059.8527363490316        0.0000000000000000        0.0000000000000000        2059.8527363490316        0.0000000000000000     
           2   2059.8527363490316       -0.0000000000000000       -0.0000000000000000       -2059.8527363490316        0.0000000000000000     
           3   2059.8527363490316       -1291.8872900748597       -1543.6705841316370        437.15175039603685        0.0000000000000000     
           4   2059.8527363490316        1291.8872900748597        1543.6705841316370       -437.15175039603685        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7850654468618940E-006           OLP:   -1.7850654468618946E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2159804899454331E-006           OLP:   -2.2159804899453060E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.6119E-08  +/-  0.3463E-10  (   0.566 %)
Integral      = 0.3232E-08  +/-  0.3532E-10  (   1.093 %)
Virtual       = -.5746E-10  +/-  0.1679E-10  (  29.228 %)
Virtual ratio = -.2921E+00  +/-  0.3687E-03  (   0.126 %)
ABS virtual   = 0.2921E-08  +/-  0.1633E-10  (   0.559 %)
Born          = 0.1682E-07  +/-  0.7878E-10  (   0.468 %)
V  2          = -.5746E-10  +/-  0.1679E-10  (  29.228 %)
B  2          = 0.1682E-07  +/-  0.7878E-10  (   0.468 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6119E-08  +/-  0.3463E-10  (   0.566 %)
accumulated results Integral      = 0.3232E-08  +/-  0.3532E-10  (   1.093 %)
accumulated results Virtual       = -.5746E-10  +/-  0.1679E-10  (  29.228 %)
accumulated results Virtual ratio = -.2921E+00  +/-  0.3687E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2921E-08  +/-  0.1633E-10  (   0.559 %)
accumulated results Born          = 0.1682E-07  +/-  0.7878E-10  (   0.468 %)
accumulated results V  2          = -.5746E-10  +/-  0.1679E-10  (  29.228 %)
accumulated results B  2          = 0.1682E-07  +/-  0.7878E-10  (   0.468 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                         3                         4
channel    1 :     1 T   481237    11605  0.1062E-08  0.4933E-09  0.7987E+00
channel    2 :     1 T    16643    11053  0.1052E-08  0.5397E-09  0.8964E+00
channel    3 :     2 T    30782    21384  0.1993E-08  0.1041E-08  0.8155E+00
channel    4 :     2 T    31206    21494  0.2012E-08  0.1158E-08  0.8956E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1189208041639011E-009  +/-   3.4633075044984123E-011
 Final result:   3.2321634540521076E-009  +/-   3.5322302230240048E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363727
   Stability unknown:                                          0
   Stable PS point:                                       363727
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363727
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363727
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.23949325    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.93725562    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.22408915    
 Time spent in Integrated_CT :    9.33758545    
 Time spent in Virtuals :    569.746643    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.30713844    
 Time spent in N1body_prefactor :   0.614411294    
 Time spent in Adding_alphas_pdf :    6.08068609    
 Time spent in Reweight_scale :    27.9356499    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.2442989    
 Time spent in Applying_cuts :    5.03602982    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.2781906    
 Time spent in Other_tasks :    20.5276489    
 Time spent in Total :    708.509155    
Time in seconds: 798



LOG file for integration channel /P0_bxb_emep/all_G1_74, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24129
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          74
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 233618
  with seed                   49
 Ranmar initialization seeds         124        2399
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.437426D+04 0.437426D+04  1.00
 muF1, muF1_reference: 0.437426D+04 0.437426D+04  1.00
 muF2, muF2_reference: 0.437426D+04 0.437426D+04  1.00
 QES,  QES_reference:  0.437426D+04 0.437426D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4752770822282835E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4752770822282849E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.3602253954292509E-006           OLP:   -1.3602253954292492E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.4395598070352596E-006           OLP:   -1.4395598070352702E-006
  FINITE:
           OLP:   -1.4146585447009365E-004
           BORN:    5.0961478170709524E-004
  MOMENTA (Exyzm): 
           1   2187.1281408558730        0.0000000000000000        0.0000000000000000        2187.1281408558730        0.0000000000000000     
           2   2187.1281408558730       -0.0000000000000000       -0.0000000000000000       -2187.1281408558730        0.0000000000000000     
           3   2187.1281408558730       -2002.4574269387390       -424.26088574391366        770.51700737189526        0.0000000000000000     
           4   2187.1281408558730        2002.4574269387390        424.26088574391366       -770.51700737189526        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.3602253954292509E-006           OLP:   -1.3602253954292492E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -1.4395598070352594E-006           OLP:   -1.4395598070352702E-006
 REAL 3: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 Error #15 in genps_fks.f  -1.0728836059570312E-006           4
ABS integral  = 0.6082E-08  +/-  0.3428E-10  (   0.564 %)
Integral      = 0.3219E-08  +/-  0.3497E-10  (   1.086 %)
Virtual       = -.6889E-11  +/-  0.1687E-10  ( 244.828 %)
Virtual ratio = -.2912E+00  +/-  0.3696E-03  (   0.127 %)
ABS virtual   = 0.2913E-08  +/-  0.1641E-10  (   0.563 %)
Born          = 0.1657E-07  +/-  0.7628E-10  (   0.460 %)
V  2          = -.6889E-11  +/-  0.1687E-10  ( 244.828 %)
B  2          = 0.1657E-07  +/-  0.7628E-10  (   0.460 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6082E-08  +/-  0.3428E-10  (   0.564 %)
accumulated results Integral      = 0.3219E-08  +/-  0.3497E-10  (   1.086 %)
accumulated results Virtual       = -.6889E-11  +/-  0.1687E-10  ( 244.828 %)
accumulated results Virtual ratio = -.2912E+00  +/-  0.3696E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2913E-08  +/-  0.1641E-10  (   0.563 %)
accumulated results Born          = 0.1657E-07  +/-  0.7628E-10  (   0.460 %)
accumulated results V  2          = -.6889E-11  +/-  0.1687E-10  ( 244.828 %)
accumulated results B  2          = 0.1657E-07  +/-  0.7628E-10  (   0.460 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   481210    11605  0.1063E-08  0.4954E-09  0.8822E+00
channel    2 :     1 T    16677    11053  0.1088E-08  0.6069E-09  0.8929E+00
channel    3 :     2 T    31028    21384  0.1997E-08  0.1021E-08  0.8061E+00
channel    4 :     2 T    30960    21494  0.1934E-08  0.1096E-08  0.9405E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0820405446943428E-009  +/-   3.4278888859146330E-011
 Final result:   3.2192488324736513E-009  +/-   3.4965732864177747E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363076
   Stability unknown:                                          0
   Stable PS point:                                       363076
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363076
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363076
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21755469    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.81235266    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.23875999    
 Time spent in Integrated_CT :    9.07867432    
 Time spent in Virtuals :    565.814514    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.09130192    
 Time spent in N1body_prefactor :   0.614313602    
 Time spent in Adding_alphas_pdf :    5.79970026    
 Time spent in Reweight_scale :    27.0800667    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.6172571    
 Time spent in Applying_cuts :    4.96333170    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.4740753    
 Time spent in Other_tasks :    20.3430176    
 Time spent in Total :    701.144897    
Time in seconds: 798



LOG file for integration channel /P0_bxb_emep/all_G1_75, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24128
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          75
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 236775
  with seed                   49
 Ranmar initialization seeds         124        5556
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.427156D+04 0.427156D+04  1.00
 muF1, muF1_reference: 0.427156D+04 0.427156D+04  1.00
 muF2, muF2_reference: 0.427156D+04 0.427156D+04  1.00
 QES,  QES_reference:  0.427156D+04 0.427156D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4920247524486963E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4920247524486963E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6370545745075783E-006           OLP:   -1.6370545745075787E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.9384950954317821E-006           OLP:   -1.9384950954317850E-006
  FINITE:
           OLP:   -1.7605105589712974E-004
           BORN:    6.1333012339988594E-004
  MOMENTA (Exyzm): 
           1   2135.7794636169660        0.0000000000000000        0.0000000000000000        2135.7794636169660        0.0000000000000000     
           2   2135.7794636169660       -0.0000000000000000       -0.0000000000000000       -2135.7794636169660        0.0000000000000000     
           3   2135.7794636169660       -1120.8324898936885       -1732.9994363781600        549.54654063115481        0.0000000000000000     
           4   2135.7794636169660        1120.8324898936885        1732.9994363781600       -549.54654063115481        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6370545745075783E-006           OLP:   -1.6370545745075787E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.9384950954317825E-006           OLP:   -1.9384950954317850E-006
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
ABS integral  = 0.6100E-08  +/-  0.3471E-10  (   0.569 %)
Integral      = 0.3234E-08  +/-  0.3539E-10  (   1.095 %)
Virtual       = 0.1820E-10  +/-  0.1723E-10  (  94.678 %)
Virtual ratio = -.2919E+00  +/-  0.3691E-03  (   0.126 %)
ABS virtual   = 0.2932E-08  +/-  0.1678E-10  (   0.572 %)
Born          = 0.1659E-07  +/-  0.7686E-10  (   0.463 %)
V  2          = 0.1820E-10  +/-  0.1723E-10  (  94.678 %)
B  2          = 0.1659E-07  +/-  0.7686E-10  (   0.463 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6100E-08  +/-  0.3471E-10  (   0.569 %)
accumulated results Integral      = 0.3234E-08  +/-  0.3539E-10  (   1.095 %)
accumulated results Virtual       = 0.1820E-10  +/-  0.1723E-10  (  94.678 %)
accumulated results Virtual ratio = -.2919E+00  +/-  0.3691E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2932E-08  +/-  0.1678E-10  (   0.572 %)
accumulated results Born          = 0.1659E-07  +/-  0.7686E-10  (   0.463 %)
accumulated results V  2          = 0.1820E-10  +/-  0.1723E-10  (  94.678 %)
accumulated results B  2          = 0.1659E-07  +/-  0.7686E-10  (   0.463 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   481713    11605  0.1061E-08  0.4966E-09  0.8594E+00
channel    2 :     1 T    16582    11053  0.1083E-08  0.5833E-09  0.9300E+00
channel    3 :     2 T    31068    21384  0.2003E-08  0.1056E-08  0.8113E+00
channel    4 :     2 T    30510    21494  0.1953E-08  0.1098E-08  0.9341E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0997395041770616E-009  +/-   3.4712702229448584E-011
 Final result:   3.2335960798612640E-009  +/-   3.5394232380462330E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363597
   Stability unknown:                                          0
   Stable PS point:                                       363597
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363597
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363597
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.22833800    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.81897616    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.20129585    
 Time spent in Integrated_CT :    9.09851074    
 Time spent in Virtuals :    567.779114    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.10334396    
 Time spent in N1body_prefactor :   0.594704509    
 Time spent in Adding_alphas_pdf :    5.80035305    
 Time spent in Reweight_scale :    27.1317024    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.9598074    
 Time spent in Applying_cuts :    4.97397947    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.5944252    
 Time spent in Other_tasks :    20.2371826    
 Time spent in Total :    703.521729    
Time in seconds: 798



LOG file for integration channel /P0_bxb_emep/all_G1_76, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24120
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          76
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 239932
  with seed                   49
 Ranmar initialization seeds         124        8713
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.431144D+04 0.431144D+04  1.00
 muF1, muF1_reference: 0.431144D+04 0.431144D+04  1.00
 muF2, muF2_reference: 0.431144D+04 0.431144D+04  1.00
 QES,  QES_reference:  0.431144D+04 0.431144D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4854649059169762E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4854649059169762E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7870111625440247E-006           OLP:   -1.7870111625440235E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2197470616925066E-006           OLP:   -2.2197470616925304E-006
  FINITE:
           OLP:   -1.9522010224780884E-004
           BORN:    6.6951205775762402E-004
  MOMENTA (Exyzm): 
           1   2155.7205728887307        0.0000000000000000        0.0000000000000000        2155.7205728887307        0.0000000000000000     
           2   2155.7205728887307       -0.0000000000000000       -0.0000000000000000       -2155.7205728887307        0.0000000000000000     
           3   2155.7205728887307       -2020.4829060644349       -597.21150114765987        456.19999734117789        0.0000000000000000     
           4   2155.7205728887307        2020.4829060644349        597.21150114765987       -456.19999734117789        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7870111625440247E-006           OLP:   -1.7870111625440235E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2197470616925071E-006           OLP:   -2.2197470616925304E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
ABS integral  = 0.6087E-08  +/-  0.3474E-10  (   0.571 %)
Integral      = 0.3219E-08  +/-  0.3542E-10  (   1.100 %)
Virtual       = -.1712E-10  +/-  0.1689E-10  (  98.663 %)
Virtual ratio = -.2921E+00  +/-  0.3691E-03  (   0.126 %)
ABS virtual   = 0.2901E-08  +/-  0.1644E-10  (   0.567 %)
Born          = 0.1666E-07  +/-  0.7677E-10  (   0.461 %)
V  2          = -.1712E-10  +/-  0.1689E-10  (  98.663 %)
B  2          = 0.1666E-07  +/-  0.7677E-10  (   0.461 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6087E-08  +/-  0.3474E-10  (   0.571 %)
accumulated results Integral      = 0.3219E-08  +/-  0.3542E-10  (   1.100 %)
accumulated results Virtual       = -.1712E-10  +/-  0.1689E-10  (  98.663 %)
accumulated results Virtual ratio = -.2921E+00  +/-  0.3691E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2901E-08  +/-  0.1644E-10  (   0.567 %)
accumulated results Born          = 0.1666E-07  +/-  0.7677E-10  (   0.461 %)
accumulated results V  2          = -.1712E-10  +/-  0.1689E-10  (  98.663 %)
accumulated results B  2          = 0.1666E-07  +/-  0.7677E-10  (   0.461 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                           1                   2                         3                         4
channel    1 :     1 T   481309    11605  0.1063E-08  0.4944E-09  0.8158E+00
channel    2 :     1 T    16510    11053  0.1052E-08  0.5782E-09  0.9292E+00
channel    3 :     2 T    30987    21384  0.1986E-08  0.1018E-08  0.7926E+00
channel    4 :     2 T    31068    21494  0.1986E-08  0.1128E-08  0.9068E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0869333034132934E-009  +/-   3.4738984854629176E-011
 Final result:   3.2189494606239969E-009  +/-   3.5418457195576477E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363305
   Stability unknown:                                          0
   Stable PS point:                                       363305
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363305
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363305
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21377373    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.79758763    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.10517788    
 Time spent in Integrated_CT :    8.88354492    
 Time spent in Virtuals :    566.617249    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.95419455    
 Time spent in N1body_prefactor :   0.594464302    
 Time spent in Adding_alphas_pdf :    5.56708336    
 Time spent in Reweight_scale :    26.5232697    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.3583755    
 Time spent in Applying_cuts :    4.92971134    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.8926125    
 Time spent in Other_tasks :    19.8797607    
 Time spent in Total :    699.316833    
Time in seconds: 799



LOG file for integration channel /P0_bxb_emep/all_G1_77, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24119
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          77
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 243089
  with seed                   49
 Ranmar initialization seeds         124       11870
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.437265D+04 0.437265D+04  1.00
 muF1, muF1_reference: 0.437265D+04 0.437265D+04  1.00
 muF2, muF2_reference: 0.437265D+04 0.437265D+04  1.00
 QES,  QES_reference:  0.437265D+04 0.437265D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4755361994581215E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 alpha_s value used for the virtuals is (for the first PS point):    7.4786701945737444E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8164515941181709E-006           OLP:   -1.8164515941181694E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2759056554320533E-006           OLP:   -2.2759056554320592E-006
  FINITE:
           OLP:   -1.9977086032713532E-004
           BORN:    6.8054205261026870E-004
  MOMENTA (Exyzm): 
           1   2176.6080218516372        0.0000000000000000        0.0000000000000000        2176.6080218516372        0.0000000000000000     
           2   2176.6080218516372       -0.0000000000000000       -0.0000000000000000       -2176.6080218516372        0.0000000000000000     
           3   2176.6080218516372       -912.82634430189501       -1925.9009871367900        441.90036623980393        0.0000000000000000     
           4   2176.6080218516372        912.82634430189501        1925.9009871367900       -441.90036623980393        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8164515941181709E-006           OLP:   -1.8164515941181694E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2759056554320524E-006           OLP:   -2.2759056554320592E-006
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.6103E-08  +/-  0.3572E-10  (   0.585 %)
Integral      = 0.3174E-08  +/-  0.3640E-10  (   1.147 %)
Virtual       = -.5880E-10  +/-  0.1667E-10  (  28.351 %)
Virtual ratio = -.2920E+00  +/-  0.3689E-03  (   0.126 %)
ABS virtual   = 0.2907E-08  +/-  0.1621E-10  (   0.558 %)
Born          = 0.1675E-07  +/-  0.7713E-10  (   0.461 %)
V  2          = -.5880E-10  +/-  0.1667E-10  (  28.351 %)
B  2          = 0.1675E-07  +/-  0.7713E-10  (   0.461 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6103E-08  +/-  0.3572E-10  (   0.585 %)
accumulated results Integral      = 0.3174E-08  +/-  0.3640E-10  (   1.147 %)
accumulated results Virtual       = -.5880E-10  +/-  0.1667E-10  (  28.351 %)
accumulated results Virtual ratio = -.2920E+00  +/-  0.3689E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2907E-08  +/-  0.1621E-10  (   0.558 %)
accumulated results Born          = 0.1675E-07  +/-  0.7713E-10  (   0.461 %)
accumulated results V  2          = -.5880E-10  +/-  0.1667E-10  (  28.351 %)
accumulated results B  2          = 0.1675E-07  +/-  0.7713E-10  (   0.461 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   481278    11605  0.1057E-08  0.4986E-09  0.7928E+00
channel    2 :     1 T    16595    11053  0.1052E-08  0.5217E-09  0.8167E+00
channel    3 :     2 T    30972    21384  0.1985E-08  0.1002E-08  0.7939E+00
channel    4 :     2 T    31026    21494  0.2009E-08  0.1152E-08  0.8887E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1031240477960798E-009  +/-   3.5724223649859955E-011
 Final result:   3.1740050198276950E-009  +/-   3.6397196587257201E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363004
   Stability unknown:                                          0
   Stable PS point:                                       363004
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363004
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363004
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.18516135    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.73447895    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.10796356    
 Time spent in Integrated_CT :    8.86651611    
 Time spent in Virtuals :    566.134827    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.10515118    
 Time spent in N1body_prefactor :   0.588578701    
 Time spent in Adding_alphas_pdf :    5.56946135    
 Time spent in Reweight_scale :    26.4690018    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.3848896    
 Time spent in Applying_cuts :    4.88344383    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.6425743    
 Time spent in Other_tasks :    20.0168457    
 Time spent in Total :    698.688843    
Time in seconds: 799



LOG file for integration channel /P0_bxb_emep/all_G1_78, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24118
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          78
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 246246
  with seed                   49
 Ranmar initialization seeds         124       15027
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.442881D+04 0.442881D+04  1.00
 muF1, muF1_reference: 0.442881D+04 0.442881D+04  1.00
 muF2, muF2_reference: 0.442881D+04 0.442881D+04  1.00
 QES,  QES_reference:  0.442881D+04 0.442881D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4665683059907770E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4665683059907770E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8131268116995874E-006           OLP:   -1.8131268116995870E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2695732353291772E-006           OLP:   -2.2695732353292534E-006
  FINITE:
           OLP:   -2.0133604950684536E-004
           BORN:    6.7929640738693768E-004
  MOMENTA (Exyzm): 
           1   2214.4058160887334        0.0000000000000000        0.0000000000000000        2214.4058160887334        0.0000000000000000     
           2   2214.4058160887334       -0.0000000000000000       -0.0000000000000000       -2214.4058160887334        0.0000000000000000     
           3   2214.4058160887334       -987.34813402936356       -1929.9520009671626        451.68800572871976        0.0000000000000000     
           4   2214.4058160887334        987.34813402936356        1929.9520009671626       -451.68800572871976        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.8131268116995874E-006           OLP:   -1.8131268116995870E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2695732353291767E-006           OLP:   -2.2695732353292534E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6188E-08  +/-  0.4194E-10  (   0.678 %)
Integral      = 0.3198E-08  +/-  0.4253E-10  (   1.330 %)
Virtual       = -.1148E-11  +/-  0.1678E-10  ( ******* %)
Virtual ratio = -.2908E+00  +/-  0.3692E-03  (   0.127 %)
ABS virtual   = 0.2932E-08  +/-  0.1631E-10  (   0.556 %)
Born          = 0.1676E-07  +/-  0.7741E-10  (   0.462 %)
V  2          = -.1148E-11  +/-  0.1678E-10  ( ******* %)
B  2          = 0.1676E-07  +/-  0.7741E-10  (   0.462 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6188E-08  +/-  0.4194E-10  (   0.678 %)
accumulated results Integral      = 0.3198E-08  +/-  0.4253E-10  (   1.330 %)
accumulated results Virtual       = -.1148E-11  +/-  0.1678E-10  ( ******* %)
accumulated results Virtual ratio = -.2908E+00  +/-  0.3692E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2932E-08  +/-  0.1631E-10  (   0.556 %)
accumulated results Born          = 0.1676E-07  +/-  0.7741E-10  (   0.462 %)
accumulated results V  2          = -.1148E-11  +/-  0.1678E-10  ( ******* %)
accumulated results B  2          = 0.1676E-07  +/-  0.7741E-10  (   0.462 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                        3                         4
channel    1 :     1 T   481082    11605  0.1059E-08  0.4977E-09  0.7672E+00
channel    2 :     1 T    16697    11053  0.1074E-08  0.5507E-09  0.7936E+00
channel    3 :     2 T    30997    21384  0.2012E-08  0.1009E-08  0.6830E+00
channel    4 :     2 T    31093    21494  0.2044E-08  0.1140E-08  0.7209E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1880363253454192E-009  +/-   4.1941278913798572E-011
 Final result:   3.1975105110102978E-009  +/-   4.2534730097873455E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363491
   Stability unknown:                                          0
   Stable PS point:                                       363491
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363491
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363491
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.23992741    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.83038521    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.16692495    
 Time spent in Integrated_CT :    9.19793701    
 Time spent in Virtuals :    567.846191    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.18416882    
 Time spent in N1body_prefactor :   0.605643392    
 Time spent in Adding_alphas_pdf :    5.71777725    
 Time spent in Reweight_scale :    26.9956245    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.0381517    
 Time spent in Applying_cuts :    5.00282717    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    38.2819366    
 Time spent in Other_tasks :    20.3364868    
 Time spent in Total :    704.443909    
Time in seconds: 799



LOG file for integration channel /P0_bxb_emep/all_G1_79, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24123
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          79
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 249403
  with seed                   49
 Ranmar initialization seeds         124       18184
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.425768D+04 0.425768D+04  1.00
 muF1, muF1_reference: 0.425768D+04 0.425768D+04  1.00
 muF2, muF2_reference: 0.425768D+04 0.425768D+04  1.00
 QES,  QES_reference:  0.425768D+04 0.425768D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4943240079504911E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4943240079504911E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6779232611478126E-006           OLP:   -1.6779232611478105E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0143566340153853E-006           OLP:   -2.0143566340154395E-006
  FINITE:
           OLP:   -1.8076140088772090E-004
           BORN:    6.2864176725744398E-004
  MOMENTA (Exyzm): 
           1   2128.8416828361323        0.0000000000000000        0.0000000000000000        2128.8416828361323        0.0000000000000000     
           2   2128.8416828361323       -0.0000000000000000       -0.0000000000000000       -2128.8416828361323        0.0000000000000000     
           3   2128.8416828361323       -2029.0042977300559       -379.65343166696471        520.54946181610387        0.0000000000000000     
           4   2128.8416828361323        2029.0042977300559        379.65343166696471       -520.54946181610387        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6779232611478126E-006           OLP:   -1.6779232611478105E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0143566340153853E-006           OLP:   -2.0143566340154395E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 Error #15 in genps_fks.f  -1.1920928955078125E-006           3
ABS integral  = 0.6067E-08  +/-  0.3396E-10  (   0.560 %)
Integral      = 0.3189E-08  +/-  0.3466E-10  (   1.087 %)
Virtual       = -.3066E-10  +/-  0.1682E-10  (  54.851 %)
Virtual ratio = -.2911E+00  +/-  0.3694E-03  (   0.127 %)
ABS virtual   = 0.2918E-08  +/-  0.1636E-10  (   0.560 %)
Born          = 0.1672E-07  +/-  0.7693E-10  (   0.460 %)
V  2          = -.3066E-10  +/-  0.1682E-10  (  54.851 %)
B  2          = 0.1672E-07  +/-  0.7693E-10  (   0.460 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6067E-08  +/-  0.3396E-10  (   0.560 %)
accumulated results Integral      = 0.3189E-08  +/-  0.3466E-10  (   1.087 %)
accumulated results Virtual       = -.3066E-10  +/-  0.1682E-10  (  54.851 %)
accumulated results Virtual ratio = -.2911E+00  +/-  0.3694E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2918E-08  +/-  0.1636E-10  (   0.560 %)
accumulated results Born          = 0.1672E-07  +/-  0.7693E-10  (   0.460 %)
accumulated results V  2          = -.3066E-10  +/-  0.1682E-10  (  54.851 %)
accumulated results B  2          = 0.1672E-07  +/-  0.7693E-10  (   0.460 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                         3                        4
channel    1 :     1 T   481072    11605  0.1057E-08  0.4959E-09  0.8852E+00
channel    2 :     1 T    16742    11053  0.1052E-08  0.5564E-09  0.9026E+00
channel    3 :     2 T    30889    21384  0.1969E-08  0.1001E-08  0.8017E+00
channel    4 :     2 T    31173    21494  0.1989E-08  0.1136E-08  0.9543E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0673339289959904E-009  +/-   3.3963611422482603E-011
 Final result:   3.1893233324820601E-009  +/-   3.4657041978588842E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363571
   Stability unknown:                                          0
   Stable PS point:                                       363571
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363571
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363571
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.25523961    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.83266854    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.19569492    
 Time spent in Integrated_CT :    9.23315430    
 Time spent in Virtuals :    568.571350    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.08896494    
 Time spent in N1body_prefactor :   0.602474213    
 Time spent in Adding_alphas_pdf :    5.82407665    
 Time spent in Reweight_scale :    27.0971565    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.7774868    
 Time spent in Applying_cuts :    4.95858574    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.8048248    
 Time spent in Other_tasks :    20.2135620    
 Time spent in Total :    704.455261    
Time in seconds: 798



LOG file for integration channel /P0_bxb_emep/all_G1_80, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24126
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          80
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 252560
  with seed                   49
 Ranmar initialization seeds         124       21341
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.427668D+04 0.427668D+04  1.00
 muF1, muF1_reference: 0.427668D+04 0.427668D+04  1.00
 muF2, muF2_reference: 0.427668D+04 0.427668D+04  1.00
 QES,  QES_reference:  0.427668D+04 0.427668D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4911783036566926E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4911783036566926E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4458695236935826E-006           OLP:   -1.4458695236935820E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5912064201410857E-006           OLP:   -1.5912064201410743E-006
  FINITE:
           OLP:   -1.5139326128489635E-004
           BORN:    5.4170175337854272E-004
  MOMENTA (Exyzm): 
           1   2138.3402711786939        0.0000000000000000        0.0000000000000000        2138.3402711786939        0.0000000000000000     
           2   2138.3402711786939       -0.0000000000000000       -0.0000000000000000       -2138.3402711786939        0.0000000000000000     
           3   2138.3402711786939       -1913.8994902038728       -661.78967834058915        686.67479812775002        0.0000000000000000     
           4   2138.3402711786939        1913.8994902038728        661.78967834058915       -686.67479812775002        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4458695236935826E-006           OLP:   -1.4458695236935820E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.5912064201410857E-006           OLP:   -1.5912064201410743E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.6084E-08  +/-  0.3626E-10  (   0.596 %)
Integral      = 0.3202E-08  +/-  0.3692E-10  (   1.153 %)
Virtual       = 0.2936E-11  +/-  0.1706E-10  ( 580.963 %)
Virtual ratio = -.2911E+00  +/-  0.3703E-03  (   0.127 %)
ABS virtual   = 0.2921E-08  +/-  0.1661E-10  (   0.568 %)
Born          = 0.1663E-07  +/-  0.7601E-10  (   0.457 %)
V  2          = 0.2936E-11  +/-  0.1706E-10  ( 580.963 %)
B  2          = 0.1663E-07  +/-  0.7601E-10  (   0.457 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6084E-08  +/-  0.3626E-10  (   0.596 %)
accumulated results Integral      = 0.3202E-08  +/-  0.3692E-10  (   1.153 %)
accumulated results Virtual       = 0.2936E-11  +/-  0.1706E-10  ( 580.963 %)
accumulated results Virtual ratio = -.2911E+00  +/-  0.3703E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2921E-08  +/-  0.1661E-10  (   0.568 %)
accumulated results Born          = 0.1663E-07  +/-  0.7601E-10  (   0.457 %)
accumulated results V  2          = 0.2936E-11  +/-  0.1706E-10  ( 580.963 %)
accumulated results B  2          = 0.1663E-07  +/-  0.7601E-10  (   0.457 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                           1                    2                         3                        4
channel    1 :     1 T   481141    11605  0.1059E-08  0.5012E-09  0.8805E+00
channel    2 :     1 T    16696    11053  0.1062E-08  0.5438E-09  0.7614E+00
channel    3 :     2 T    30975    21384  0.1967E-08  0.1034E-08  0.8258E+00
channel    4 :     2 T    31061    21494  0.1996E-08  0.1123E-08  0.9221E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0838478945256323E-009  +/-   3.6264443825863546E-011
 Final result:   3.2018403046921645E-009  +/-   3.6917598356771997E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    362830
   Stability unknown:                                          0
   Stable PS point:                                       362830
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 362830
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       362830
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.19898748    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.77435756    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.16012383    
 Time spent in Integrated_CT :    9.00659180    
 Time spent in Virtuals :    566.674866    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.98293686    
 Time spent in N1body_prefactor :   0.594629169    
 Time spent in Adding_alphas_pdf :    5.72492313    
 Time spent in Reweight_scale :    26.6262951    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.5276871    
 Time spent in Applying_cuts :    4.95745087    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.1244164    
 Time spent in Other_tasks :    20.2731323    
 Time spent in Total :    700.626343    
Time in seconds: 799



LOG file for integration channel /P0_bxb_emep/all_G1_81, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24127
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          81
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 255717
  with seed                   49
 Ranmar initialization seeds         124       24498
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.436749D+04 0.436749D+04  1.00
 muF1, muF1_reference: 0.436749D+04 0.436749D+04  1.00
 muF2, muF2_reference: 0.436749D+04 0.436749D+04  1.00
 QES,  QES_reference:  0.436749D+04 0.436749D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4763663885593898E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4763663885593898E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5840218326771518E-006           OLP:   -1.5840218326771507E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.8409420137378875E-006           OLP:   -1.8409420137378803E-006
  FINITE:
           OLP:   -1.7154929627712117E-004
           BORN:    5.9346115959281584E-004
  MOMENTA (Exyzm): 
           1   2183.7442899140487        0.0000000000000000        0.0000000000000000        2183.7442899140487        0.0000000000000000     
           2   2183.7442899140487       -0.0000000000000000       -0.0000000000000000       -2183.7442899140487        0.0000000000000000     
           3   2183.7442899140487       -955.40900183827910       -1870.0638908864057        598.99399574736299        0.0000000000000000     
           4   2183.7442899140487        955.40900183827910        1870.0638908864057       -598.99399574736299        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5840218326771518E-006           OLP:   -1.5840218326771507E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.8409420137378877E-006           OLP:   -1.8409420137378803E-006
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
ABS integral  = 0.6175E-08  +/-  0.3536E-10  (   0.573 %)
Integral      = 0.3287E-08  +/-  0.3604E-10  (   1.097 %)
Virtual       = 0.7464E-11  +/-  0.1731E-10  ( 231.946 %)
Virtual ratio = -.2919E+00  +/-  0.3687E-03  (   0.126 %)
ABS virtual   = 0.2946E-08  +/-  0.1686E-10  (   0.572 %)
Born          = 0.1681E-07  +/-  0.7734E-10  (   0.460 %)
V  2          = 0.7464E-11  +/-  0.1731E-10  ( 231.946 %)
B  2          = 0.1681E-07  +/-  0.7734E-10  (   0.460 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6175E-08  +/-  0.3536E-10  (   0.573 %)
accumulated results Integral      = 0.3287E-08  +/-  0.3604E-10  (   1.097 %)
accumulated results Virtual       = 0.7464E-11  +/-  0.1731E-10  ( 231.946 %)
accumulated results Virtual ratio = -.2919E+00  +/-  0.3687E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2946E-08  +/-  0.1686E-10  (   0.572 %)
accumulated results Born          = 0.1681E-07  +/-  0.7734E-10  (   0.460 %)
accumulated results V  2          = 0.7464E-11  +/-  0.1731E-10  ( 231.946 %)
accumulated results B  2          = 0.1681E-07  +/-  0.7734E-10  (   0.460 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   480714    11605  0.1061E-08  0.4945E-09  0.7517E+00
channel    2 :     1 T    16770    11053  0.1082E-08  0.5793E-09  0.9621E+00
channel    3 :     2 T    31295    21384  0.2029E-08  0.1053E-08  0.7631E+00
channel    4 :     2 T    31094    21494  0.2004E-08  0.1160E-08  0.9387E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1752206867203969E-009  +/-   3.5356633669354024E-011
 Final result:   3.2866728588004046E-009  +/-   3.6040370357252630E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363855
   Stability unknown:                                          0
   Stable PS point:                                       363855
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363855
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363855
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.20338523    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.77470040    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.11976480    
 Time spent in Integrated_CT :    9.02197266    
 Time spent in Virtuals :    567.205078    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.03870487    
 Time spent in N1body_prefactor :   0.609691024    
 Time spent in Adding_alphas_pdf :    5.73034048    
 Time spent in Reweight_scale :    26.6951408    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.5702744    
 Time spent in Applying_cuts :    4.95675516    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.1894836    
 Time spent in Other_tasks :    20.4959717    
 Time spent in Total :    701.611206    
Time in seconds: 799



LOG file for integration channel /P0_bxb_emep/all_G1_82, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24130
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          82
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 258874
  with seed                   49
 Ranmar initialization seeds         124       27655
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.441651D+04 0.441651D+04  1.00
 muF1, muF1_reference: 0.441651D+04 0.441651D+04  1.00
 muF2, muF2_reference: 0.441651D+04 0.441651D+04  1.00
 QES,  QES_reference:  0.441651D+04 0.441651D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4685200322122378E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4685200322122378E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7660805521460457E-006           OLP:   -1.7660805521460485E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1800498599752488E-006           OLP:   -2.1800498599752958E-006
  FINITE:
           OLP:   -1.9539483817191305E-004
           BORN:    6.6167030705600871E-004
  MOMENTA (Exyzm): 
           1   2208.2574756246313        0.0000000000000000        0.0000000000000000        2208.2574756246313        0.0000000000000000     
           2   2208.2574756246313       -0.0000000000000000       -0.0000000000000000       -2208.2574756246313        0.0000000000000000     
           3   2208.2574756246313       -2124.9944994133862       -359.86498460762670        480.93310238355917        0.0000000000000000     
           4   2208.2574756246313        2124.9944994133862        359.86498460762670       -480.93310238355917        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7660805521460457E-006           OLP:   -1.7660805521460485E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1800498599752488E-006           OLP:   -2.1800498599752958E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
 Error #15 in genps_fks.f  -1.2218952178955078E-006           3
ABS integral  = 0.6116E-08  +/-  0.3461E-10  (   0.566 %)
Integral      = 0.3209E-08  +/-  0.3530E-10  (   1.100 %)
Virtual       = -.1168E-10  +/-  0.1672E-10  ( 143.060 %)
Virtual ratio = -.2915E+00  +/-  0.3691E-03  (   0.127 %)
ABS virtual   = 0.2936E-08  +/-  0.1625E-10  (   0.553 %)
Born          = 0.1677E-07  +/-  0.7734E-10  (   0.461 %)
V  2          = -.1168E-10  +/-  0.1672E-10  ( 143.060 %)
B  2          = 0.1677E-07  +/-  0.7734E-10  (   0.461 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6116E-08  +/-  0.3461E-10  (   0.566 %)
accumulated results Integral      = 0.3209E-08  +/-  0.3530E-10  (   1.100 %)
accumulated results Virtual       = -.1168E-10  +/-  0.1672E-10  ( 143.060 %)
accumulated results Virtual ratio = -.2915E+00  +/-  0.3691E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2936E-08  +/-  0.1625E-10  (   0.553 %)
accumulated results Born          = 0.1677E-07  +/-  0.7734E-10  (   0.461 %)
accumulated results V  2          = -.1168E-10  +/-  0.1672E-10  ( 143.060 %)
accumulated results B  2          = 0.1677E-07  +/-  0.7734E-10  (   0.461 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   481249    11605  0.1060E-08  0.4933E-09  0.8796E+00
channel    2 :     1 T    16682    11053  0.1060E-08  0.5498E-09  0.8989E+00
channel    3 :     2 T    30737    21384  0.1983E-08  0.1017E-08  0.8009E+00
channel    4 :     2 T    31204    21494  0.2013E-08  0.1149E-08  0.9023E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1162069290102231E-009  +/-   3.4605302235622416E-011
 Final result:   3.2088281059287697E-009  +/-   3.5298034538410968E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363435
   Stability unknown:                                          0
   Stable PS point:                                       363435
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363435
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363435
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21203089    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.77154541    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.15398884    
 Time spent in Integrated_CT :    9.09600830    
 Time spent in Virtuals :    567.451904    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.02182627    
 Time spent in N1body_prefactor :   0.590460896    
 Time spent in Adding_alphas_pdf :    5.63609743    
 Time spent in Reweight_scale :    26.6740265    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.6420708    
 Time spent in Applying_cuts :    4.95944548    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.4291763    
 Time spent in Other_tasks :    20.2775879    
 Time spent in Total :    701.916260    
Time in seconds: 798



LOG file for integration channel /P0_bxb_emep/all_G1_83, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24131
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          83
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 262031
  with seed                   49
 Ranmar initialization seeds         124         731
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.442488D+04 0.442488D+04  1.00
 muF1, muF1_reference: 0.442488D+04 0.442488D+04  1.00
 muF2, muF2_reference: 0.442488D+04 0.442488D+04  1.00
 QES,  QES_reference:  0.442488D+04 0.442488D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4671918435918375E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4671918435918375E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4778561436055457E-006           OLP:   -1.4778561436055444E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6484965402570941E-006           OLP:   -1.6484965402568883E-006
  FINITE:
           OLP:   -1.5876786906823991E-004
           BORN:    5.5368568955467827E-004
  MOMENTA (Exyzm): 
           1   2212.4393141758319        0.0000000000000000        0.0000000000000000        2212.4393141758319        0.0000000000000000     
           2   2212.4393141758319       -0.0000000000000000       -0.0000000000000000       -2212.4393141758319        0.0000000000000000     
           3   2212.4393141758319       -1215.9119659300029       -1716.4847268336496        685.65734340548738        0.0000000000000000     
           4   2212.4393141758319        1215.9119659300029        1716.4847268336496       -685.65734340548738        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4778561436055457E-006           OLP:   -1.4778561436055444E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6484965402570943E-006           OLP:   -1.6484965402568883E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.6093E-08  +/-  0.3529E-10  (   0.579 %)
Integral      = 0.3154E-08  +/-  0.3597E-10  (   1.141 %)
Virtual       = 0.3747E-12  +/-  0.1720E-10  ( ******* %)
Virtual ratio = -.2915E+00  +/-  0.3691E-03  (   0.127 %)
ABS virtual   = 0.2938E-08  +/-  0.1675E-10  (   0.570 %)
Born          = 0.1672E-07  +/-  0.7746E-10  (   0.463 %)
V  2          = 0.3747E-12  +/-  0.1720E-10  ( ******* %)
B  2          = 0.1672E-07  +/-  0.7746E-10  (   0.463 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6093E-08  +/-  0.3529E-10  (   0.579 %)
accumulated results Integral      = 0.3154E-08  +/-  0.3597E-10  (   1.141 %)
accumulated results Virtual       = 0.3747E-12  +/-  0.1720E-10  ( ******* %)
accumulated results Virtual ratio = -.2915E+00  +/-  0.3691E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2938E-08  +/-  0.1675E-10  (   0.570 %)
accumulated results Born          = 0.1672E-07  +/-  0.7746E-10  (   0.463 %)
accumulated results V  2          = 0.3747E-12  +/-  0.1720E-10  ( ******* %)
accumulated results B  2          = 0.1672E-07  +/-  0.7746E-10  (   0.463 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                         3                        4
channel    1 :     1 T   481154    11605  0.1056E-08  0.4957E-09  0.8393E+00
channel    2 :     1 T    16527    11053  0.1059E-08  0.5410E-09  0.8989E+00
channel    3 :     2 T    31188    21384  0.1992E-08  0.9931E-09  0.7884E+00
channel    4 :     2 T    30999    21494  0.1986E-08  0.1124E-08  0.9364E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0933949034807104E-009  +/-   3.5292457220080952E-011
 Final result:   3.1535516486624711E-009  +/-   3.5973775393627466E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    362823
   Stability unknown:                                          0
   Stable PS point:                                       362823
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 362823
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       362823
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.20575833    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.78653908    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.12738752    
 Time spent in Integrated_CT :    9.07958984    
 Time spent in Virtuals :    567.369080    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.02437115    
 Time spent in N1body_prefactor :   0.595651388    
 Time spent in Adding_alphas_pdf :    5.74594259    
 Time spent in Reweight_scale :    26.7049770    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.5065737    
 Time spent in Applying_cuts :    4.88735104    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.2300301    
 Time spent in Other_tasks :    20.1799927    
 Time spent in Total :    701.443237    
Time in seconds: 798



LOG file for integration channel /P0_bxb_emep/all_G1_84, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24124
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          84
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 265188
  with seed                   49
 Ranmar initialization seeds         124        3888
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.435111D+04 0.435111D+04  1.00
 muF1, muF1_reference: 0.435111D+04 0.435111D+04  1.00
 muF2, muF2_reference: 0.435111D+04 0.435111D+04  1.00
 QES,  QES_reference:  0.435111D+04 0.435111D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4790111587054162E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4790111587054162E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5287439382883137E-006           OLP:   -1.5287439382883141E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7402524316904420E-006           OLP:   -1.7402524316904191E-006
  FINITE:
           OLP:   -1.6399899276827427E-004
           BORN:    5.7275103891953885E-004
  MOMENTA (Exyzm): 
           1   2175.5541923781134        0.0000000000000000        0.0000000000000000        2175.5541923781134        0.0000000000000000     
           2   2175.5541923781134       -0.0000000000000000       -0.0000000000000000       -2175.5541923781134        0.0000000000000000     
           3   2175.5541923781134       -1986.7123091262231       -617.15781391390635        636.49546539260064        0.0000000000000000     
           4   2175.5541923781134        1986.7123091262231        617.15781391390635       -636.49546539260064        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5287439382883137E-006           OLP:   -1.5287439382883141E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.7402524316904422E-006           OLP:   -1.7402524316904191E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
ABS integral  = 0.6141E-08  +/-  0.3411E-10  (   0.556 %)
Integral      = 0.3210E-08  +/-  0.3482E-10  (   1.085 %)
Virtual       = -.2363E-10  +/-  0.1704E-10  (  72.101 %)
Virtual ratio = -.2912E+00  +/-  0.3688E-03  (   0.127 %)
ABS virtual   = 0.2939E-08  +/-  0.1658E-10  (   0.564 %)
Born          = 0.1686E-07  +/-  0.7696E-10  (   0.456 %)
V  2          = -.2363E-10  +/-  0.1704E-10  (  72.101 %)
B  2          = 0.1686E-07  +/-  0.7696E-10  (   0.456 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6141E-08  +/-  0.3411E-10  (   0.556 %)
accumulated results Integral      = 0.3210E-08  +/-  0.3482E-10  (   1.085 %)
accumulated results Virtual       = -.2363E-10  +/-  0.1704E-10  (  72.101 %)
accumulated results Virtual ratio = -.2912E+00  +/-  0.3688E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2939E-08  +/-  0.1658E-10  (   0.564 %)
accumulated results Born          = 0.1686E-07  +/-  0.7696E-10  (   0.456 %)
accumulated results V  2          = -.2363E-10  +/-  0.1704E-10  (  72.101 %)
accumulated results B  2          = 0.1686E-07  +/-  0.7696E-10  (   0.456 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                           1                   2                         3                         4
channel    1 :     1 T   480795    11605  0.1060E-08  0.4990E-09  0.8503E+00
channel    2 :     1 T    16583    11053  0.1041E-08  0.5334E-09  0.9461E+00
channel    3 :     2 T    30982    21384  0.2005E-08  0.1005E-08  0.7962E+00
channel    4 :     2 T    31510    21494  0.2035E-08  0.1173E-08  0.9566E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1408993126149613E-009  +/-   3.4113135691795483E-011
 Final result:   3.2099106544817869E-009  +/-   3.4823246516240249E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363870
   Stability unknown:                                          0
   Stable PS point:                                       363870
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363870
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363870
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.20144737    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.84760046    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.14777994    
 Time spent in Integrated_CT :    9.04718018    
 Time spent in Virtuals :    567.208069    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.98433018    
 Time spent in N1body_prefactor :   0.588509917    
 Time spent in Adding_alphas_pdf :    5.66828585    
 Time spent in Reweight_scale :    26.7068405    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.7735271    
 Time spent in Applying_cuts :    4.91035938    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.4628220    
 Time spent in Other_tasks :    20.3145142    
 Time spent in Total :    701.861206    
Time in seconds: 798



LOG file for integration channel /P0_bxb_emep/all_G1_85, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24145
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          85
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 268345
  with seed                   49
 Ranmar initialization seeds         124        7045
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.434707D+04 0.434707D+04  1.00
 muF1, muF1_reference: 0.434707D+04 0.434707D+04  1.00
 muF2, muF2_reference: 0.434707D+04 0.434707D+04  1.00
 QES,  QES_reference:  0.434707D+04 0.434707D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4796646743446549E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4796646743446549E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7256526018396948E-006           OLP:   -1.7256526018396942E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.1037267261812740E-006           OLP:   -2.1037267261812562E-006
  FINITE:
           OLP:   -1.8877285741550977E-004
           BORN:    6.4652378711933702E-004
  MOMENTA (Exyzm): 
           1   2173.5360329177961        0.0000000000000000        0.0000000000000000        2173.5360329177961        0.0000000000000000     
           2   2173.5360329177961       -0.0000000000000000       -0.0000000000000000       -2173.5360329177961        0.0000000000000000     
           3   2173.5360329177961       -1923.4445771908763       -880.28898428958166        499.71106552232555        0.0000000000000000     
           4   2173.5360329177961        1923.4445771908763        880.28898428958166       -499.71106552232555        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7256526018396948E-006           OLP:   -1.7256526018396942E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -2.1037267261812740E-006           OLP:   -2.1037267261812562E-006
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6102E-08  +/-  0.3616E-10  (   0.593 %)
Integral      = 0.3222E-08  +/-  0.3682E-10  (   1.143 %)
Virtual       = -.8226E-11  +/-  0.1685E-10  ( 204.834 %)
Virtual ratio = -.2918E+00  +/-  0.3690E-03  (   0.126 %)
ABS virtual   = 0.2913E-08  +/-  0.1639E-10  (   0.563 %)
Born          = 0.1668E-07  +/-  0.7638E-10  (   0.458 %)
V  2          = -.8226E-11  +/-  0.1685E-10  ( 204.834 %)
B  2          = 0.1668E-07  +/-  0.7638E-10  (   0.458 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6102E-08  +/-  0.3616E-10  (   0.593 %)
accumulated results Integral      = 0.3222E-08  +/-  0.3682E-10  (   1.143 %)
accumulated results Virtual       = -.8226E-11  +/-  0.1685E-10  ( 204.834 %)
accumulated results Virtual ratio = -.2918E+00  +/-  0.3690E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2913E-08  +/-  0.1639E-10  (   0.563 %)
accumulated results Born          = 0.1668E-07  +/-  0.7638E-10  (   0.458 %)
accumulated results V  2          = -.8226E-11  +/-  0.1685E-10  ( 204.834 %)
accumulated results B  2          = 0.1668E-07  +/-  0.7638E-10  (   0.458 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                         3                        4
channel    1 :     1 T   481091    11605  0.1062E-08  0.4982E-09  0.8107E+00
channel    2 :     1 T    16740    11053  0.1065E-08  0.5714E-09  0.8858E+00
channel    3 :     2 T    30915    21384  0.1975E-08  0.1013E-08  0.7815E+00
channel    4 :     2 T    31127    21494  0.2000E-08  0.1140E-08  0.8557E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1018470289913196E-009  +/-   3.6161451043540880E-011
 Final result:   3.2223888960063130E-009  +/-   3.6818550946045147E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363094
   Stability unknown:                                          0
   Stable PS point:                                       363094
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363094
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363094
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.22324574    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.79759121    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.20932579    
 Time spent in Integrated_CT :    8.96392822    
 Time spent in Virtuals :    567.470642    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.02820110    
 Time spent in N1body_prefactor :   0.604919553    
 Time spent in Adding_alphas_pdf :    5.73759174    
 Time spent in Reweight_scale :    26.7930660    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.7173443    
 Time spent in Applying_cuts :    4.93621349    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.2710609    
 Time spent in Other_tasks :    20.0178833    
 Time spent in Total :    701.771057    
Time in seconds: 798



LOG file for integration channel /P0_bxb_emep/all_G1_86, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24143
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          86
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 271502
  with seed                   49
 Ranmar initialization seeds         124       10202
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.432721D+04 0.432721D+04  1.00
 muF1, muF1_reference: 0.432721D+04 0.432721D+04  1.00
 muF2, muF2_reference: 0.432721D+04 0.432721D+04  1.00
 QES,  QES_reference:  0.432721D+04 0.432721D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4828910527386869E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4828910527386869E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6517288236442287E-006           OLP:   -1.6517288236442296E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.9656856206025797E-006           OLP:   -1.9656856206026657E-006
  FINITE:
           OLP:   -1.7919675140184662E-004
           BORN:    6.1882789920646815E-004
  MOMENTA (Exyzm): 
           1   2163.6048120397518        0.0000000000000000        0.0000000000000000        2163.6048120397518        0.0000000000000000     
           2   2163.6048120397518       -0.0000000000000000       -0.0000000000000000       -2163.6048120397518        0.0000000000000000     
           3   2163.6048120397518       -1803.5205689277086       -1062.8404176274269        546.68966223425230        0.0000000000000000     
           4   2163.6048120397518        1803.5205689277086        1062.8404176274269       -546.68966223425230        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6517288236442287E-006           OLP:   -1.6517288236442296E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.9656856206025793E-006           OLP:   -1.9656856206026657E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6120E-08  +/-  0.3371E-10  (   0.551 %)
Integral      = 0.3205E-08  +/-  0.3443E-10  (   1.074 %)
Virtual       = -.4203E-10  +/-  0.1669E-10  (  39.713 %)
Virtual ratio = -.2914E+00  +/-  0.3689E-03  (   0.127 %)
ABS virtual   = 0.2951E-08  +/-  0.1622E-10  (   0.549 %)
Born          = 0.1690E-07  +/-  0.7737E-10  (   0.458 %)
V  2          = -.4203E-10  +/-  0.1669E-10  (  39.713 %)
B  2          = 0.1690E-07  +/-  0.7737E-10  (   0.458 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6120E-08  +/-  0.3371E-10  (   0.551 %)
accumulated results Integral      = 0.3205E-08  +/-  0.3443E-10  (   1.074 %)
accumulated results Virtual       = -.4203E-10  +/-  0.1669E-10  (  39.713 %)
accumulated results Virtual ratio = -.2914E+00  +/-  0.3689E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2951E-08  +/-  0.1622E-10  (   0.549 %)
accumulated results Born          = 0.1690E-07  +/-  0.7737E-10  (   0.458 %)
accumulated results V  2          = -.4203E-10  +/-  0.1669E-10  (  39.713 %)
accumulated results B  2          = 0.1690E-07  +/-  0.7737E-10  (   0.458 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   480468    11605  0.1058E-08  0.4991E-09  0.8851E+00
channel    2 :     1 T    16822    11053  0.1073E-08  0.5726E-09  0.8986E+00
channel    3 :     2 T    30985    21384  0.1980E-08  0.9973E-09  0.8103E+00
channel    4 :     2 T    31599    21494  0.2009E-08  0.1136E-08  0.9458E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1200905514497667E-009  +/-   3.3713295237472543E-011
 Final result:   3.2049504949873404E-009  +/-   3.4425860555017213E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363924
   Stability unknown:                                          0
   Stable PS point:                                       363924
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363924
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363924
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21786237    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.74838400    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.10130596    
 Time spent in Integrated_CT :    8.90460205    
 Time spent in Virtuals :    566.066162    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.98061800    
 Time spent in N1body_prefactor :   0.577574968    
 Time spent in Adding_alphas_pdf :    5.73231649    
 Time spent in Reweight_scale :    26.5454826    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.5809498    
 Time spent in Applying_cuts :    4.82175732    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.8634148    
 Time spent in Other_tasks :    19.8288574    
 Time spent in Total :    698.969238    
Time in seconds: 799



LOG file for integration channel /P0_bxb_emep/all_G1_87, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24137
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          87
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 274659
  with seed                   49
 Ranmar initialization seeds         124       13359
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.423905D+04 0.423905D+04  1.00
 muF1, muF1_reference: 0.423905D+04 0.423905D+04  1.00
 muF2, muF2_reference: 0.423905D+04 0.423905D+04  1.00
 QES,  QES_reference:  0.423905D+04 0.423905D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4974263386491269E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 REAL 1: keeping split order            1
 alpha_s value used for the virtuals is (for the first PS point):    7.5021844027926249E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7770995662220872E-006           OLP:   -1.7770995662220855E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2008800418555777E-006           OLP:   -2.2008800418555798E-006
  FINITE:
           OLP:   -1.9143827321749793E-004
           BORN:    6.6579863201734145E-004
  MOMENTA (Exyzm): 
           1   2105.3242051596917        0.0000000000000000        0.0000000000000000        2105.3242051596917        0.0000000000000000     
           2   2105.3242051596917       -0.0000000000000000       -0.0000000000000000       -2105.3242051596917        0.0000000000000000     
           3   2105.3242051596917       -2048.2566609092705       -181.63213144842729        451.71277234277272        0.0000000000000000     
           4   2105.3242051596917        2048.2566609092705        181.63213144842729       -451.71277234277272        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7770995662220872E-006           OLP:   -1.7770995662220855E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.2008800418555781E-006           OLP:   -2.2008800418555798E-006
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6059E-08  +/-  0.3328E-10  (   0.549 %)
Integral      = 0.3179E-08  +/-  0.3399E-10  (   1.069 %)
Virtual       = -.1605E-10  +/-  0.1670E-10  ( 104.051 %)
Virtual ratio = -.2917E+00  +/-  0.3686E-03  (   0.126 %)
ABS virtual   = 0.2904E-08  +/-  0.1625E-10  (   0.560 %)
Born          = 0.1666E-07  +/-  0.7653E-10  (   0.459 %)
V  2          = -.1605E-10  +/-  0.1670E-10  ( 104.051 %)
B  2          = 0.1666E-07  +/-  0.7653E-10  (   0.459 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6059E-08  +/-  0.3328E-10  (   0.549 %)
accumulated results Integral      = 0.3179E-08  +/-  0.3399E-10  (   1.069 %)
accumulated results Virtual       = -.1605E-10  +/-  0.1670E-10  ( 104.051 %)
accumulated results Virtual ratio = -.2917E+00  +/-  0.3686E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2904E-08  +/-  0.1625E-10  (   0.560 %)
accumulated results Born          = 0.1666E-07  +/-  0.7653E-10  (   0.459 %)
accumulated results V  2          = -.1605E-10  +/-  0.1670E-10  ( 104.051 %)
accumulated results B  2          = 0.1666E-07  +/-  0.7653E-10  (   0.459 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                         3                         4
channel    1 :     1 T   481243    11605  0.1058E-08  0.4997E-09  0.8860E+00
channel    2 :     1 T    16558    11053  0.1060E-08  0.5524E-09  0.9098E+00
channel    3 :     2 T    30960    21384  0.1967E-08  0.1003E-08  0.8084E+00
channel    4 :     2 T    31115    21494  0.1974E-08  0.1124E-08  0.9731E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0592687649511708E-009  +/-   3.3283585049354457E-011
 Final result:   3.1786484839606200E-009  +/-   3.3990107661843694E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363499
   Stability unknown:                                          0
   Stable PS point:                                       363499
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363499
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363499
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21297920    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.83285666    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.12896156    
 Time spent in Integrated_CT :    8.89373779    
 Time spent in Virtuals :    563.854004    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.01605368    
 Time spent in N1body_prefactor :   0.592085600    
 Time spent in Adding_alphas_pdf :    5.66433525    
 Time spent in Reweight_scale :    26.5308533    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.6321602    
 Time spent in Applying_cuts :    4.85527420    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.8725700    
 Time spent in Other_tasks :    20.1381836    
 Time spent in Total :    697.223999    
Time in seconds: 799



LOG file for integration channel /P0_bxb_emep/all_G1_88, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24138
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          88
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 277816
  with seed                   49
 Ranmar initialization seeds         124       16516
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.415789D+04 0.415789D+04  1.00
 muF1, muF1_reference: 0.415789D+04 0.415789D+04  1.00
 muF2, muF2_reference: 0.415789D+04 0.415789D+04  1.00
 QES,  QES_reference:  0.415789D+04 0.415789D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5111259479554993E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5111259479554979E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6908538776178079E-006           OLP:   -1.6908538776178100E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0384482118336578E-006           OLP:   -2.0384482118338899E-006
  FINITE:
           OLP:   -1.7986644461316317E-004
           BORN:    6.3348628296185430E-004
  MOMENTA (Exyzm): 
           1   2078.9448604550967        0.0000000000000000        0.0000000000000000        2078.9448604550967        0.0000000000000000     
           2   2078.9448604550967       -0.0000000000000000       -0.0000000000000000       -2078.9448604550967        0.0000000000000000     
           3   2078.9448604550967       -1176.7884197464289       -1639.2360545837355        500.08589793765759        0.0000000000000000     
           4   2078.9448604550967        1176.7884197464289        1639.2360545837355       -500.08589793765759        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6908538776178079E-006           OLP:   -1.6908538776178100E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0384482118336574E-006           OLP:   -2.0384482118338899E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
ABS integral  = 0.6116E-08  +/-  0.3420E-10  (   0.559 %)
Integral      = 0.3232E-08  +/-  0.3490E-10  (   1.080 %)
Virtual       = -.2949E-10  +/-  0.1700E-10  (  57.637 %)
Virtual ratio = -.2914E+00  +/-  0.3695E-03  (   0.127 %)
ABS virtual   = 0.2922E-08  +/-  0.1654E-10  (   0.566 %)
Born          = 0.1676E-07  +/-  0.7806E-10  (   0.466 %)
V  2          = -.2949E-10  +/-  0.1700E-10  (  57.637 %)
B  2          = 0.1676E-07  +/-  0.7806E-10  (   0.466 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6116E-08  +/-  0.3420E-10  (   0.559 %)
accumulated results Integral      = 0.3232E-08  +/-  0.3490E-10  (   1.080 %)
accumulated results Virtual       = -.2949E-10  +/-  0.1700E-10  (  57.637 %)
accumulated results Virtual ratio = -.2914E+00  +/-  0.3695E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2922E-08  +/-  0.1654E-10  (   0.566 %)
accumulated results Born          = 0.1676E-07  +/-  0.7806E-10  (   0.466 %)
accumulated results V  2          = -.2949E-10  +/-  0.1700E-10  (  57.637 %)
accumulated results B  2          = 0.1676E-07  +/-  0.7806E-10  (   0.466 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                         3                         4
channel    1 :     1 T   480911    11605  0.1059E-08  0.4962E-09  0.8798E+00
channel    2 :     1 T    16729    11053  0.1072E-08  0.5692E-09  0.9791E+00
channel    3 :     2 T    30887    21384  0.1998E-08  0.1026E-08  0.7765E+00
channel    4 :     2 T    31342    21494  0.1987E-08  0.1141E-08  0.9439E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1160678386283247E-009  +/-   3.4200012139576281E-011
 Final result:   3.2317903169541264E-009  +/-   3.4896961755245588E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363026
   Stability unknown:                                          0
   Stable PS point:                                       363026
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363026
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363026
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21198034    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.82105565    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.17039442    
 Time spent in Integrated_CT :    9.13684082    
 Time spent in Virtuals :    568.484497    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.02928257    
 Time spent in N1body_prefactor :   0.586614728    
 Time spent in Adding_alphas_pdf :    5.70468807    
 Time spent in Reweight_scale :    26.9074059    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.6797352    
 Time spent in Applying_cuts :    4.97240686    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.4782295    
 Time spent in Other_tasks :    20.3558960    
 Time spent in Total :    703.539062    
Time in seconds: 798



LOG file for integration channel /P0_bxb_emep/all_G1_89, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24142
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          89
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 280973
  with seed                   49
 Ranmar initialization seeds         124       19673
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.438491D+04 0.438491D+04  1.00
 muF1, muF1_reference: 0.438491D+04 0.438491D+04  1.00
 muF2, muF2_reference: 0.438491D+04 0.438491D+04  1.00
 QES,  QES_reference:  0.438491D+04 0.438491D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4735667833755737E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 alpha_s value used for the virtuals is (for the first PS point):    7.5025031530518441E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.9582338583079383E-006           OLP:   -1.9582338583079388E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.5505429398793642E-006           OLP:   -2.5505429398793426E-006
  FINITE:
           OLP:   -2.1186613693852167E-004
           BORN:    7.3366143845455698E-004
  MOMENTA (Exyzm): 
           1   2104.3770416453976        0.0000000000000000        0.0000000000000000        2104.3770416453976        0.0000000000000000     
           2   2104.3770416453976       -0.0000000000000000       -0.0000000000000000       -2104.3770416453976        0.0000000000000000     
           3   2104.3770416453976       -2035.2015594307309       -410.48961589104971        343.30106486956163        0.0000000000000000     
           4   2104.3770416453976        2035.2015594307309        410.48961589104971       -343.30106486956163        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.9582338583079383E-006           OLP:   -1.9582338583079388E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.5505429398793642E-006           OLP:   -2.5505429398793426E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.6180E-08  +/-  0.3386E-10  (   0.548 %)
Integral      = 0.3315E-08  +/-  0.3457E-10  (   1.043 %)
Virtual       = 0.1427E-10  +/-  0.1690E-10  ( 118.475 %)
Virtual ratio = -.2919E+00  +/-  0.3687E-03  (   0.126 %)
ABS virtual   = 0.2961E-08  +/-  0.1643E-10  (   0.555 %)
Born          = 0.1689E-07  +/-  0.7757E-10  (   0.459 %)
V  2          = 0.1427E-10  +/-  0.1690E-10  ( 118.475 %)
B  2          = 0.1689E-07  +/-  0.7757E-10  (   0.459 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6180E-08  +/-  0.3386E-10  (   0.548 %)
accumulated results Integral      = 0.3315E-08  +/-  0.3457E-10  (   1.043 %)
accumulated results Virtual       = 0.1427E-10  +/-  0.1690E-10  ( 118.475 %)
accumulated results Virtual ratio = -.2919E+00  +/-  0.3687E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2961E-08  +/-  0.1643E-10  (   0.555 %)
accumulated results Born          = 0.1689E-07  +/-  0.7757E-10  (   0.459 %)
accumulated results V  2          = 0.1427E-10  +/-  0.1690E-10  ( 118.475 %)
accumulated results B  2          = 0.1689E-07  +/-  0.7757E-10  (   0.459 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   480961    11605  0.1051E-08  0.4925E-09  0.8913E+00
channel    2 :     1 T    16634    11053  0.1092E-08  0.5834E-09  0.8739E+00
channel    3 :     2 T    31064    21384  0.2024E-08  0.1070E-08  0.8173E+00
channel    4 :     2 T    31212    21494  0.2013E-08  0.1169E-08  0.9723E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1798868742099835E-009  +/-   3.3861816186001779E-011
 Final result:   3.3151994667244659E-009  +/-   3.4571750605860167E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363727
   Stability unknown:                                          0
   Stable PS point:                                       363727
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363727
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363727
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.23298180    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.86420417    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.20553589    
 Time spent in Integrated_CT :    9.07604980    
 Time spent in Virtuals :    568.159424    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.13907385    
 Time spent in N1body_prefactor :   0.596548915    
 Time spent in Adding_alphas_pdf :    6.04002571    
 Time spent in Reweight_scale :    27.4287453    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.7968702    
 Time spent in Applying_cuts :    4.98047495    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.7371864    
 Time spent in Other_tasks :    20.3620605    
 Time spent in Total :    704.619263    
Time in seconds: 799



LOG file for integration channel /P0_bxb_emep/all_G1_90, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24141
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          90
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 284130
  with seed                   49
 Ranmar initialization seeds         124       22830
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.439881D+04 0.439881D+04  1.00
 muF1, muF1_reference: 0.439881D+04 0.439881D+04  1.00
 muF2, muF2_reference: 0.439881D+04 0.439881D+04  1.00
 QES,  QES_reference:  0.439881D+04 0.439881D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4713411905689545E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4713411905689545E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.3049466860343342E-006           OLP:   -1.3049466860343344E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.3428477707629716E-006           OLP:   -1.3428477707629166E-006
  FINITE:
           OLP:   -1.3395570103749276E-004
           BORN:    4.8890435568799378E-004
  MOMENTA (Exyzm): 
           1   2199.4063921393167        0.0000000000000000        0.0000000000000000        2199.4063921393167        0.0000000000000000     
           2   2199.4063921393167       -0.0000000000000000       -0.0000000000000000       -2199.4063921393167        0.0000000000000000     
           3   2199.4063921393167       -1460.3521368832949       -1424.7804595680022        821.43822416349292        0.0000000000000000     
           4   2199.4063921393167        1460.3521368832949        1424.7804595680022       -821.43822416349292        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.3049466860343342E-006           OLP:   -1.3049466860343344E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.3428477707629716E-006           OLP:   -1.3428477707629166E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6137E-08  +/-  0.3430E-10  (   0.559 %)
Integral      = 0.3252E-08  +/-  0.3500E-10  (   1.076 %)
Virtual       = -.1980E-10  +/-  0.1689E-10  (  85.310 %)
Virtual ratio = -.2912E+00  +/-  0.3691E-03  (   0.127 %)
ABS virtual   = 0.2940E-08  +/-  0.1643E-10  (   0.559 %)
Born          = 0.1683E-07  +/-  0.7740E-10  (   0.460 %)
V  2          = -.1980E-10  +/-  0.1689E-10  (  85.310 %)
B  2          = 0.1683E-07  +/-  0.7740E-10  (   0.460 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6137E-08  +/-  0.3430E-10  (   0.559 %)
accumulated results Integral      = 0.3252E-08  +/-  0.3500E-10  (   1.076 %)
accumulated results Virtual       = -.1980E-10  +/-  0.1689E-10  (  85.310 %)
accumulated results Virtual ratio = -.2912E+00  +/-  0.3691E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2940E-08  +/-  0.1643E-10  (   0.559 %)
accumulated results Born          = 0.1683E-07  +/-  0.7740E-10  (   0.460 %)
accumulated results V  2          = -.1980E-10  +/-  0.1689E-10  (  85.310 %)
accumulated results B  2          = 0.1683E-07  +/-  0.7740E-10  (   0.460 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   480862    11605  0.1059E-08  0.4980E-09  0.8663E+00
channel    2 :     1 T    16633    11053  0.1057E-08  0.5701E-09  0.8636E+00
channel    3 :     2 T    31138    21384  0.2016E-08  0.1045E-08  0.7987E+00
channel    4 :     2 T    31243    21494  0.2005E-08  0.1139E-08  0.9680E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1371940432844428E-009  +/-   3.4304035363311978E-011
 Final result:   3.2515775422262316E-009  +/-   3.5002245331318909E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363523
   Stability unknown:                                          0
   Stable PS point:                                       363523
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363523
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363523
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.22222936    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.76313615    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.12906837    
 Time spent in Integrated_CT :    9.07806396    
 Time spent in Virtuals :    566.281372    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.00393963    
 Time spent in N1body_prefactor :   0.592535079    
 Time spent in Adding_alphas_pdf :    5.57567406    
 Time spent in Reweight_scale :    26.4903069    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.7044601    
 Time spent in Applying_cuts :    4.93275881    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.0622406    
 Time spent in Other_tasks :    20.0585327    
 Time spent in Total :    699.894348    
Time in seconds: 799



LOG file for integration channel /P0_bxb_emep/all_G1_91, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24146
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          91
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 287287
  with seed                   49
 Ranmar initialization seeds         124       25987
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.414600D+04 0.414600D+04  1.00
 muF1, muF1_reference: 0.414600D+04 0.414600D+04  1.00
 muF2, muF2_reference: 0.414600D+04 0.414600D+04  1.00
 QES,  QES_reference:  0.414600D+04 0.414600D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5131589643105734E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5131589643105734E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.9238462473163938E-006           OLP:   -1.9238462473163933E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.4832426351817758E-006           OLP:   -2.4832426351819172E-006
  FINITE:
           OLP:   -2.0629620444909905E-004
           BORN:    7.2077795978420451E-004
  MOMENTA (Exyzm): 
           1   2073.0017892751594        0.0000000000000000        0.0000000000000000        2073.0017892751594        0.0000000000000000     
           2   2073.0017892751594       -0.0000000000000000       -0.0000000000000000       -2073.0017892751594        0.0000000000000000     
           3   2073.0017892751594       -1844.9451598250048       -874.91360060110344        357.82672770422380        0.0000000000000000     
           4   2073.0017892751594        1844.9451598250048        874.91360060110344       -357.82672770422380        0.0000000000000000     
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.9238462473163938E-006           OLP:   -1.9238462473163933E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.4832426351817754E-006           OLP:   -2.4832426351819172E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6081E-08  +/-  0.3420E-10  (   0.562 %)
Integral      = 0.3215E-08  +/-  0.3489E-10  (   1.085 %)
Virtual       = -.8955E-12  +/-  0.1747E-10  ( ******* %)
Virtual ratio = -.2916E+00  +/-  0.3692E-03  (   0.127 %)
ABS virtual   = 0.2927E-08  +/-  0.1702E-10  (   0.582 %)
Born          = 0.1666E-07  +/-  0.7710E-10  (   0.463 %)
V  2          = -.8955E-12  +/-  0.1747E-10  ( ******* %)
B  2          = 0.1666E-07  +/-  0.7710E-10  (   0.463 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6081E-08  +/-  0.3420E-10  (   0.562 %)
accumulated results Integral      = 0.3215E-08  +/-  0.3489E-10  (   1.085 %)
accumulated results Virtual       = -.8955E-12  +/-  0.1747E-10  ( ******* %)
accumulated results Virtual ratio = -.2916E+00  +/-  0.3692E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2927E-08  +/-  0.1702E-10  (   0.582 %)
accumulated results Born          = 0.1666E-07  +/-  0.7710E-10  (   0.463 %)
accumulated results V  2          = -.8955E-12  +/-  0.1747E-10  ( ******* %)
accumulated results B  2          = 0.1666E-07  +/-  0.7710E-10  (   0.463 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                   2                         3                        4
channel    1 :     1 T   481368    11605  0.1058E-08  0.4999E-09  0.8906E+00
channel    2 :     1 T    16555    11053  0.1050E-08  0.5554E-09  0.1000E+01
channel    3 :     2 T    31233    21384  0.2011E-08  0.1047E-08  0.8158E+00
channel    4 :     2 T    30712    21494  0.1962E-08  0.1113E-08  0.9514E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0813710403698888E-009  +/-   3.4200885472461167E-011
 Final result:   3.2147419501819010E-009  +/-   3.4889798907742299E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363411
   Stability unknown:                                          0
   Stable PS point:                                       363411
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363411
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363411
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.17253602    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.79210901    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.06586790    
 Time spent in Integrated_CT :    8.95568848    
 Time spent in Virtuals :    566.322205    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.00999117    
 Time spent in N1body_prefactor :   0.611373305    
 Time spent in Adding_alphas_pdf :    5.70565033    
 Time spent in Reweight_scale :    26.4783497    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.4564133    
 Time spent in Applying_cuts :    4.94789934    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.9989052    
 Time spent in Other_tasks :    20.1396484    
 Time spent in Total :    699.656616    
Time in seconds: 797



LOG file for integration channel /P0_bxb_emep/all_G1_92, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24133
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          92
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 290444
  with seed                   49
 Ranmar initialization seeds         124       29144
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.423603D+04 0.423603D+04  1.00
 muF1, muF1_reference: 0.423603D+04 0.423603D+04  1.00
 muF2, muF2_reference: 0.423603D+04 0.423603D+04  1.00
 QES,  QES_reference:  0.423603D+04 0.423603D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4979297770793235E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4979297770793249E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.9431472401808851E-006           OLP:   -1.9431472401808859E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.5209857667353143E-006           OLP:   -2.5209857667353401E-006
  FINITE:
           OLP:   -2.1099252104095085E-004
           BORN:    7.2800916668448745E-004
  MOMENTA (Exyzm): 
           1   2118.0152211421514        0.0000000000000000        0.0000000000000000        2118.0152211421514        0.0000000000000000     
           2   2118.0152211421514       -0.0000000000000000       -0.0000000000000000       -2118.0152211421514        0.0000000000000000     
           3   2118.0152211421514       -2087.6905143499466       -44.976727981864016        354.27939147392954        0.0000000000000000     
           4   2118.0152211421514        2087.6905143499466        44.976727981864016       -354.27939147392954        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.9431472401808851E-006           OLP:   -1.9431472401808859E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -2.5209857667353147E-006           OLP:   -2.5209857667353401E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
ABS integral  = 0.6152E-08  +/-  0.3523E-10  (   0.573 %)
Integral      = 0.3252E-08  +/-  0.3592E-10  (   1.104 %)
Virtual       = -.2012E-10  +/-  0.1682E-10  (  83.570 %)
Virtual ratio = -.2919E+00  +/-  0.3697E-03  (   0.127 %)
ABS virtual   = 0.2940E-08  +/-  0.1635E-10  (   0.556 %)
Born          = 0.1681E-07  +/-  0.7726E-10  (   0.460 %)
V  2          = -.2012E-10  +/-  0.1682E-10  (  83.570 %)
B  2          = 0.1681E-07  +/-  0.7726E-10  (   0.460 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6152E-08  +/-  0.3523E-10  (   0.573 %)
accumulated results Integral      = 0.3252E-08  +/-  0.3592E-10  (   1.104 %)
accumulated results Virtual       = -.2012E-10  +/-  0.1682E-10  (  83.570 %)
accumulated results Virtual ratio = -.2919E+00  +/-  0.3697E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2940E-08  +/-  0.1635E-10  (   0.556 %)
accumulated results Born          = 0.1681E-07  +/-  0.7726E-10  (   0.460 %)
accumulated results V  2          = -.2012E-10  +/-  0.1682E-10  (  83.570 %)
accumulated results B  2          = 0.1681E-07  +/-  0.7726E-10  (   0.460 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                    2                         3                        4
channel    1 :     1 T   480814    11605  0.1053E-08  0.4917E-09  0.8336E+00
channel    2 :     1 T    16733    11053  0.1078E-08  0.5555E-09  0.7844E+00
channel    3 :     2 T    31347    21384  0.2008E-08  0.1030E-08  0.8158E+00
channel    4 :     2 T    30982    21494  0.2013E-08  0.1175E-08  0.9374E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1515540163796522E-009  +/-   3.5233007474646486E-011
 Final result:   3.2519312360058870E-009  +/-   3.5917492023657770E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363691
   Stability unknown:                                          0
   Stable PS point:                                       363691
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363691
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363691
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.23472643    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.84056902    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.13367271    
 Time spent in Integrated_CT :    9.24206543    
 Time spent in Virtuals :    568.997620    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.08206940    
 Time spent in N1body_prefactor :   0.594533086    
 Time spent in Adding_alphas_pdf :    5.72618294    
 Time spent in Reweight_scale :    26.9691429    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.6595383    
 Time spent in Applying_cuts :    4.93723679    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.6629601    
 Time spent in Other_tasks :    20.4487305    
 Time spent in Total :    704.529114    
Time in seconds: 798



LOG file for integration channel /P0_bxb_emep/all_G1_93, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24134
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          93
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 293601
  with seed                   49
 Ranmar initialization seeds         124        2220
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.433577D+04 0.433577D+04  1.00
 muF1, muF1_reference: 0.433577D+04 0.433577D+04  1.00
 muF2, muF2_reference: 0.433577D+04 0.433577D+04  1.00
 QES,  QES_reference:  0.433577D+04 0.433577D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4814986051419521E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4814986051419521E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6995454188731730E-006           OLP:   -1.6995454188731720E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0547554786039737E-006           OLP:   -2.0547554786039428E-006
  FINITE:
           OLP:   -1.8531119753799688E-004
           BORN:    6.3674260938719168E-004
  MOMENTA (Exyzm): 
           1   2167.8843622635359        0.0000000000000000        0.0000000000000000        2167.8843622635359        0.0000000000000000     
           2   2167.8843622635359       -0.0000000000000000       -0.0000000000000000       -2167.8843622635359        0.0000000000000000     
           3   2167.8843622635359       -1994.5762908064667       -674.91100967621878        515.63859176493077        0.0000000000000000     
           4   2167.8843622635359        1994.5762908064667        674.91100967621878       -515.63859176493077        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6995454188731730E-006           OLP:   -1.6995454188731720E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -2.0547554786039737E-006           OLP:   -2.0547554786039428E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.6134E-08  +/-  0.3671E-10  (   0.598 %)
Integral      = 0.3205E-08  +/-  0.3737E-10  (   1.166 %)
Virtual       = -.1324E-10  +/-  0.1697E-10  ( 128.204 %)
Virtual ratio = -.2917E+00  +/-  0.3689E-03  (   0.126 %)
ABS virtual   = 0.2927E-08  +/-  0.1652E-10  (   0.564 %)
Born          = 0.1673E-07  +/-  0.7706E-10  (   0.461 %)
V  2          = -.1324E-10  +/-  0.1697E-10  ( 128.204 %)
B  2          = 0.1673E-07  +/-  0.7706E-10  (   0.461 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6134E-08  +/-  0.3671E-10  (   0.598 %)
accumulated results Integral      = 0.3205E-08  +/-  0.3737E-10  (   1.166 %)
accumulated results Virtual       = -.1324E-10  +/-  0.1697E-10  ( 128.204 %)
accumulated results Virtual ratio = -.2917E+00  +/-  0.3689E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2927E-08  +/-  0.1652E-10  (   0.564 %)
accumulated results Born          = 0.1673E-07  +/-  0.7706E-10  (   0.461 %)
accumulated results V  2          = -.1324E-10  +/-  0.1697E-10  ( 128.204 %)
accumulated results B  2          = 0.1673E-07  +/-  0.7706E-10  (   0.461 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                            1                   2                         3                        4
channel    1 :     1 T   480860    11605  0.1056E-08  0.4944E-09  0.8513E+00
channel    2 :     1 T    16809    11053  0.1099E-08  0.5544E-09  0.7442E+00
channel    3 :     2 T    31094    21384  0.1985E-08  0.1010E-08  0.7958E+00
channel    4 :     2 T    31108    21494  0.1994E-08  0.1146E-08  0.9247E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1337422970266590E-009  +/-   3.6707409666156606E-011
 Final result:   3.2047905732254087E-009  +/-   3.7366939239506023E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363222
   Stability unknown:                                          0
   Stable PS point:                                       363222
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363222
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363222
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.21253538    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.80939627    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.17036724    
 Time spent in Integrated_CT :    9.09020996    
 Time spent in Virtuals :    568.641724    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.06187344    
 Time spent in N1body_prefactor :   0.601940870    
 Time spent in Adding_alphas_pdf :    5.74888992    
 Time spent in Reweight_scale :    27.2121468    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.7553549    
 Time spent in Applying_cuts :    4.96990824    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.4491272    
 Time spent in Other_tasks :    20.6196899    
 Time spent in Total :    704.343201    
Time in seconds: 798



LOG file for integration channel /P0_bxb_emep/all_G1_94, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24144
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          94
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 296758
  with seed                   49
 Ranmar initialization seeds         124        5377
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.413958D+04 0.413958D+04  1.00
 muF1, muF1_reference: 0.413958D+04 0.413958D+04  1.00
 muF2, muF2_reference: 0.413958D+04 0.413958D+04  1.00
 QES,  QES_reference:  0.413958D+04 0.413958D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5142612766028308E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5142612766028308E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7082491240068751E-006           OLP:   -1.7082491240068748E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0709888756204768E-006           OLP:   -2.0709888756204979E-006
  FINITE:
           OLP:   -1.8148552586321425E-004
           BORN:    6.4000349306621946E-004
  MOMENTA (Exyzm): 
           1   2069.7878403450341        0.0000000000000000        0.0000000000000000        2069.7878403450341        0.0000000000000000     
           2   2069.7878403450341       -0.0000000000000000       -0.0000000000000000       -2069.7878403450341        0.0000000000000000     
           3   2069.7878403450341       -2004.4480667728155       -170.80527158711607        486.86262009825128        0.0000000000000000     
           4   2069.7878403450341        2004.4480667728155        170.80527158711607       -486.86262009825128        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.7082491240068751E-006           OLP:   -1.7082491240068748E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0709888756204768E-006           OLP:   -2.0709888756204979E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6047E-08  +/-  0.3886E-10  (   0.643 %)
Integral      = 0.3113E-08  +/-  0.3947E-10  (   1.268 %)
Virtual       = -.3987E-10  +/-  0.1661E-10  (  41.656 %)
Virtual ratio = -.2919E+00  +/-  0.3685E-03  (   0.126 %)
ABS virtual   = 0.2894E-08  +/-  0.1615E-10  (   0.558 %)
Born          = 0.1663E-07  +/-  0.7611E-10  (   0.458 %)
V  2          = -.3987E-10  +/-  0.1661E-10  (  41.656 %)
B  2          = 0.1663E-07  +/-  0.7611E-10  (   0.458 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6047E-08  +/-  0.3886E-10  (   0.643 %)
accumulated results Integral      = 0.3113E-08  +/-  0.3947E-10  (   1.268 %)
accumulated results Virtual       = -.3987E-10  +/-  0.1661E-10  (  41.656 %)
accumulated results Virtual ratio = -.2919E+00  +/-  0.3685E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2894E-08  +/-  0.1615E-10  (   0.558 %)
accumulated results Born          = 0.1663E-07  +/-  0.7611E-10  (   0.458 %)
accumulated results V  2          = -.3987E-10  +/-  0.1661E-10  (  41.656 %)
accumulated results B  2          = 0.1663E-07  +/-  0.7611E-10  (   0.458 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                           1                    2                         3                        4
channel    1 :     1 T   481535    11605  0.1057E-08  0.4980E-09  0.8870E+00
channel    2 :     1 T    16298    11053  0.1052E-08  0.5360E-09  0.7285E+00
channel    3 :     2 T    31067    21384  0.1979E-08  0.9789E-09  0.7332E+00
channel    4 :     2 T    30968    21494  0.1959E-08  0.1100E-08  0.8263E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0470959859657455E-009  +/-   3.8860677793286795E-011
 Final result:   3.1126846563867106E-009  +/-   3.9473544150295988E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363256
   Stability unknown:                                          0
   Stable PS point:                                       363256
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363256
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363256
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.23129046    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.86611533    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.20582438    
 Time spent in Integrated_CT :    9.17364502    
 Time spent in Virtuals :    568.652100    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.10235500    
 Time spent in N1body_prefactor :   0.608327866    
 Time spent in Adding_alphas_pdf :    5.95599079    
 Time spent in Reweight_scale :    27.2188702    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.6627312    
 Time spent in Applying_cuts :    4.96005011    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.8075142    
 Time spent in Other_tasks :    20.3850708    
 Time spent in Total :    704.829834    
Time in seconds: 799



LOG file for integration channel /P0_bxb_emep/all_G1_95, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24147
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          95
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 299915
  with seed                   49
 Ranmar initialization seeds         124        8534
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.435926D+04 0.435926D+04  1.00
 muF1, muF1_reference: 0.435926D+04 0.435926D+04  1.00
 muF2, muF2_reference: 0.435926D+04 0.435926D+04  1.00
 QES,  QES_reference:  0.435926D+04 0.435926D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4776936027968255E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4776936027968255E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6724741281133585E-006           OLP:   -1.6724741281133574E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.0042390616500389E-006           OLP:   -2.0042390616500367E-006
  FINITE:
           OLP:   -1.8253958358041382E-004
           BORN:    6.2660022417849711E-004
  MOMENTA (Exyzm): 
           1   2179.6297446942940        0.0000000000000000        0.0000000000000000        2179.6297446942940        0.0000000000000000     
           2   2179.6297446942940       -0.0000000000000000       -0.0000000000000000       -2179.6297446942940        0.0000000000000000     
           3   2179.6297446942940       -2098.8736543715731       -239.90905205899136        536.61797741147916        0.0000000000000000     
           4   2179.6297446942940        2098.8736543715731        239.90905205899136       -536.61797741147916        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.6724741281133585E-006           OLP:   -1.6724741281133574E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -2.0042390616500393E-006           OLP:   -2.0042390616500367E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.6107E-08  +/-  0.3495E-10  (   0.572 %)
Integral      = 0.3252E-08  +/-  0.3562E-10  (   1.096 %)
Virtual       = 0.9561E-11  +/-  0.1700E-10  ( 177.805 %)
Virtual ratio = -.2921E+00  +/-  0.3695E-03  (   0.126 %)
ABS virtual   = 0.2938E-08  +/-  0.1654E-10  (   0.563 %)
Born          = 0.1672E-07  +/-  0.7687E-10  (   0.460 %)
V  2          = 0.9561E-11  +/-  0.1700E-10  ( 177.805 %)
B  2          = 0.1672E-07  +/-  0.7687E-10  (   0.460 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6107E-08  +/-  0.3495E-10  (   0.572 %)
accumulated results Integral      = 0.3252E-08  +/-  0.3562E-10  (   1.096 %)
accumulated results Virtual       = 0.9561E-11  +/-  0.1700E-10  ( 177.805 %)
accumulated results Virtual ratio = -.2921E+00  +/-  0.3695E-03  (   0.126 %)
accumulated results ABS virtual   = 0.2938E-08  +/-  0.1654E-10  (   0.563 %)
accumulated results Born          = 0.1672E-07  +/-  0.7687E-10  (   0.460 %)
accumulated results V  2          = 0.9561E-11  +/-  0.1700E-10  ( 177.805 %)
accumulated results B  2          = 0.1672E-07  +/-  0.7687E-10  (   0.460 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                         3                         4
channel    1 :     1 T   480977    11605  0.1058E-08  0.4921E-09  0.7351E+00
channel    2 :     1 T    16452    11053  0.1061E-08  0.5708E-09  0.8539E+00
channel    3 :     2 T    31116    21384  0.1972E-08  0.1021E-08  0.8252E+00
channel    4 :     2 T    31324    21494  0.2016E-08  0.1168E-08  0.9262E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1067839049914869E-009  +/-   3.4948250310084496E-011
 Final result:   3.2516887141737745E-009  +/-   3.5624488735490564E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363243
   Stability unknown:                                          0
   Stable PS point:                                       363243
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363243
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363243
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.22712290    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.79343796    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.18123102    
 Time spent in Integrated_CT :    9.09185791    
 Time spent in Virtuals :    568.863708    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.09709930    
 Time spent in N1body_prefactor :   0.604848266    
 Time spent in Adding_alphas_pdf :    5.79126740    
 Time spent in Reweight_scale :    26.8839054    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    14.1673698    
 Time spent in Applying_cuts :    5.00360775    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    37.2705612    
 Time spent in Other_tasks :    20.5930176    
 Time spent in Total :    704.569031    
Time in seconds: 798



LOG file for integration channel /P0_bxb_emep/all_G1_96, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       24136
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          96
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 303072
  with seed                   49
 Ranmar initialization seeds         124       11691
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.430642D+04 0.430642D+04  1.00
 muF1, muF1_reference: 0.430642D+04 0.430642D+04  1.00
 muF2, muF2_reference: 0.430642D+04 0.430642D+04  1.00
 QES,  QES_reference:  0.430642D+04 0.430642D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4862864929565620E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4862864929565620E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.3564568587070100E-006           OLP:   -1.3564568587070096E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.4329193748294761E-006           OLP:   -1.4329193748294901E-006
  FINITE:
           OLP:   -1.3964906859827570E-004
           BORN:    5.0820288186644122E-004
  MOMENTA (Exyzm): 
           1   2153.2110342701653        0.0000000000000000        0.0000000000000000        2153.2110342701653        0.0000000000000000     
           2   2153.2110342701653       -0.0000000000000000       -0.0000000000000000       -2153.2110342701653        0.0000000000000000     
           3   2153.2110342701653       -1967.0137131842860       -432.52809145411800        761.63919302437534        0.0000000000000000     
           4   2153.2110342701653        1967.0137131842860        432.52809145411800       -761.63919302437534        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.3564568587070100E-006           OLP:   -1.3564568587070096E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -1.4329193748294763E-006           OLP:   -1.4329193748294901E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6164E-08  +/-  0.3494E-10  (   0.567 %)
Integral      = 0.3285E-08  +/-  0.3563E-10  (   1.085 %)
Virtual       = 0.1089E-10  +/-  0.1707E-10  ( 156.768 %)
Virtual ratio = -.2908E+00  +/-  0.3696E-03  (   0.127 %)
ABS virtual   = 0.2952E-08  +/-  0.1661E-10  (   0.563 %)
Born          = 0.1679E-07  +/-  0.7718E-10  (   0.460 %)
V  2          = 0.1089E-10  +/-  0.1707E-10  ( 156.768 %)
B  2          = 0.1679E-07  +/-  0.7718E-10  (   0.460 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6164E-08  +/-  0.3494E-10  (   0.567 %)
accumulated results Integral      = 0.3285E-08  +/-  0.3563E-10  (   1.085 %)
accumulated results Virtual       = 0.1089E-10  +/-  0.1707E-10  ( 156.768 %)
accumulated results Virtual ratio = -.2908E+00  +/-  0.3696E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2952E-08  +/-  0.1661E-10  (   0.563 %)
accumulated results Born          = 0.1679E-07  +/-  0.7718E-10  (   0.460 %)
accumulated results V  2          = 0.1089E-10  +/-  0.1707E-10  ( 156.768 %)
accumulated results B  2          = 0.1679E-07  +/-  0.7718E-10  (   0.460 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                           1                   2                         3                         4
channel    1 :     1 T   481031    11605  0.1065E-08  0.5028E-09  0.8114E+00
channel    2 :     1 T    16584    11053  0.1052E-08  0.5523E-09  0.9256E+00
channel    3 :     2 T    31090    21384  0.2010E-08  0.1023E-08  0.7780E+00
channel    4 :     2 T    31170    21494  0.2037E-08  0.1207E-08  0.9385E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1639169718233901E-009  +/-   3.4944726506286394E-011
 Final result:   3.2853119391739899E-009  +/-   3.5633095735122752E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363969
   Stability unknown:                                          0
   Stable PS point:                                       363969
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363969
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363969
 counters for the granny resonances
 ntot                0
 Time spent in Born :   0.798984289    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    2.37452269    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    2.93624592    
 Time spent in Integrated_CT :    6.28607178    
 Time spent in Virtuals :    317.439392    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    4.38804054    
 Time spent in N1body_prefactor :   0.455649555    
 Time spent in Adding_alphas_pdf :    3.68920541    
 Time spent in Reweight_scale :    18.2177124    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    9.52154636    
 Time spent in Applying_cuts :    3.75834942    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    24.6525421    
 Time spent in Other_tasks :    14.2768860    
 Time spent in Total :    408.795135    
Time in seconds: 415



LOG file for integration channel /P0_bxb_emep/all_G1_97, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28358
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          97
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 306229
  with seed                   49
 Ranmar initialization seeds         124       14848
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.417830D+04 0.417830D+04  1.00
 muF1, muF1_reference: 0.417830D+04 0.417830D+04  1.00
 muF2, muF2_reference: 0.417830D+04 0.417830D+04  1.00
 QES,  QES_reference:  0.417830D+04 0.417830D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5076507345220686E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5076507345220686E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5897872014184489E-006           OLP:   -1.5897872014184475E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.8514451795677660E-006           OLP:   -1.8514451795676343E-006
  FINITE:
           OLP:   -1.6795486339236189E-004
           BORN:    5.9562118185267794E-004
  MOMENTA (Exyzm): 
           1   2089.1506758217483        0.0000000000000000        0.0000000000000000        2089.1506758217483        0.0000000000000000     
           2   2089.1506758217483       -0.0000000000000000       -0.0000000000000000       -2089.1506758217483        0.0000000000000000     
           3   2089.1506758217483       -1492.1988651863871       -1346.8151492380644        569.19420833822289        0.0000000000000000     
           4   2089.1506758217483        1492.1988651863871        1346.8151492380644       -569.19420833822289        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5897872014184489E-006           OLP:   -1.5897872014184475E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -1.8514451795677656E-006           OLP:   -1.8514451795676343E-006
 REAL 1: keeping split order            1
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 2: keeping split order            1
 REAL 3: keeping split order            1
ABS integral  = 0.6075E-08  +/-  0.3457E-10  (   0.569 %)
Integral      = 0.3202E-08  +/-  0.3525E-10  (   1.101 %)
Virtual       = 0.9789E-11  +/-  0.1708E-10  ( 174.501 %)
Virtual ratio = -.2915E+00  +/-  0.3689E-03  (   0.127 %)
ABS virtual   = 0.2903E-08  +/-  0.1664E-10  (   0.573 %)
Born          = 0.1655E-07  +/-  0.7545E-10  (   0.456 %)
V  2          = 0.9789E-11  +/-  0.1708E-10  ( 174.501 %)
B  2          = 0.1655E-07  +/-  0.7545E-10  (   0.456 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6075E-08  +/-  0.3457E-10  (   0.569 %)
accumulated results Integral      = 0.3202E-08  +/-  0.3525E-10  (   1.101 %)
accumulated results Virtual       = 0.9789E-11  +/-  0.1708E-10  ( 174.501 %)
accumulated results Virtual ratio = -.2915E+00  +/-  0.3689E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2903E-08  +/-  0.1664E-10  (   0.573 %)
accumulated results Born          = 0.1655E-07  +/-  0.7545E-10  (   0.456 %)
accumulated results V  2          = 0.9789E-11  +/-  0.1708E-10  ( 174.501 %)
accumulated results B  2          = 0.1655E-07  +/-  0.7545E-10  (   0.456 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   481206    11605  0.1056E-08  0.4956E-09  0.8943E+00
channel    2 :     1 T    16476    11053  0.1030E-08  0.5310E-09  0.9557E+00
channel    3 :     2 T    31129    21384  0.2021E-08  0.1060E-08  0.7862E+00
channel    4 :     2 T    31066    21494  0.1968E-08  0.1115E-08  0.9335E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0753343986270337E-009  +/-   3.4568979541332023E-011
 Final result:   3.2022682968727964E-009  +/-   3.5250868628317034E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363207
   Stability unknown:                                          0
   Stable PS point:                                       363207
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363207
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363207
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.19669926    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.79237795    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.16822624    
 Time spent in Integrated_CT :    8.86383057    
 Time spent in Virtuals :    548.471191    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.99366713    
 Time spent in N1body_prefactor :   0.577689648    
 Time spent in Adding_alphas_pdf :    5.68867874    
 Time spent in Reweight_scale :    26.3076172    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.1711569    
 Time spent in Applying_cuts :    4.88224506    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.5933990    
 Time spent in Other_tasks :    20.0277710    
 Time spent in Total :    680.734497    
Time in seconds: 702



LOG file for integration channel /P0_bxb_emep/all_G1_98, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28359
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          98
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 309386
  with seed                   49
 Ranmar initialization seeds         124       18005
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.417028D+04 0.417028D+04  1.00
 muF1, muF1_reference: 0.417028D+04 0.417028D+04  1.00
 muF2, muF2_reference: 0.417028D+04 0.417028D+04  1.00
 QES,  QES_reference:  0.417028D+04 0.417028D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5090138438738796E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5090138438738796E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.9128652073018775E-006           OLP:   -1.9128652073018779E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -2.4618569405809263E-006           OLP:   -2.4618569405809263E-006
  FINITE:
           OLP:   -2.0577907287330359E-004
           BORN:    7.1666386198194392E-004
  MOMENTA (Exyzm): 
           1   2085.1405144587270        0.0000000000000000        0.0000000000000000        2085.1405144587270        0.0000000000000000     
           2   2085.1405144587270       -0.0000000000000000       -0.0000000000000000       -2085.1405144587270        0.0000000000000000     
           3   2085.1405144587270       -2042.8096289721086       -201.45190704363313        366.27436978926511        0.0000000000000000     
           4   2085.1405144587270        2042.8096289721086        201.45190704363313       -366.27436978926511        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.9128652073018775E-006           OLP:   -1.9128652073018779E-006
  COEFFICIENT SINGLE POLE:
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
        MadFKS:   -2.4618569405809259E-006           OLP:   -2.4618569405809263E-006
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 Error #15 in genps_fks.f  -1.1296942830085754E-006           3
ABS integral  = 0.6089E-08  +/-  0.3477E-10  (   0.571 %)
Integral      = 0.3187E-08  +/-  0.3546E-10  (   1.113 %)
Virtual       = -.2914E-10  +/-  0.1674E-10  (  57.450 %)
Virtual ratio = -.2916E+00  +/-  0.3691E-03  (   0.127 %)
ABS virtual   = 0.2918E-08  +/-  0.1628E-10  (   0.558 %)
Born          = 0.1673E-07  +/-  0.7625E-10  (   0.456 %)
V  2          = -.2914E-10  +/-  0.1674E-10  (  57.450 %)
B  2          = 0.1673E-07  +/-  0.7625E-10  (   0.456 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6089E-08  +/-  0.3477E-10  (   0.571 %)
accumulated results Integral      = 0.3187E-08  +/-  0.3546E-10  (   1.113 %)
accumulated results Virtual       = -.2914E-10  +/-  0.1674E-10  (  57.450 %)
accumulated results Virtual ratio = -.2916E+00  +/-  0.3691E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2918E-08  +/-  0.1628E-10  (   0.558 %)
accumulated results Born          = 0.1673E-07  +/-  0.7625E-10  (   0.456 %)
accumulated results V  2          = -.2914E-10  +/-  0.1674E-10  (  57.450 %)
accumulated results B  2          = 0.1673E-07  +/-  0.7625E-10  (   0.456 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   481085    11605  0.1060E-08  0.4947E-09  0.8223E+00
channel    2 :     1 T    16503    11053  0.1015E-08  0.5055E-09  0.9050E+00
channel    3 :     2 T    30989    21384  0.1996E-08  0.1016E-08  0.7460E+00
channel    4 :     2 T    31296    21494  0.2018E-08  0.1171E-08  0.9563E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0888401809112038E-009  +/-   3.4771129502321575E-011
 Final result:   3.1867521948488736E-009  +/-   3.5455765944269519E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363701
   Stability unknown:                                          0
   Stable PS point:                                       363701
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363701
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363701
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.24440706    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.84437466    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.25225544    
 Time spent in Integrated_CT :    8.96789551    
 Time spent in Virtuals :    550.346985    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.12212563    
 Time spent in N1body_prefactor :   0.594526768    
 Time spent in Adding_alphas_pdf :    5.66551638    
 Time spent in Reweight_scale :    26.5012531    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.3435917    
 Time spent in Applying_cuts :    4.86459160    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.3515434    
 Time spent in Other_tasks :    20.0847778    
 Time spent in Total :    683.183899    
Time in seconds: 702



LOG file for integration channel /P0_bxb_emep/all_G1_99, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28357
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          99
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 312543
  with seed                   49
 Ranmar initialization seeds         124       21162
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.420696D+04 0.420696D+04  1.00
 muF1, muF1_reference: 0.420696D+04 0.420696D+04  1.00
 muF2, muF2_reference: 0.420696D+04 0.420696D+04  1.00
 QES,  QES_reference:  0.420696D+04 0.420696D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5028059639838329E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.5028059639838329E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5659465273411872E-006           OLP:   -1.5659465273411893E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.8078558125569833E-006           OLP:   -1.8078558125570649E-006
  FINITE:
           OLP:   -1.6560493429840153E-004
           BORN:    5.8668916223559111E-004
  MOMENTA (Exyzm): 
           1   2103.4777088012274        0.0000000000000000        0.0000000000000000        2103.4777088012274        0.0000000000000000     
           2   2103.4777088012274       -0.0000000000000000       -0.0000000000000000       -2103.4777088012274        0.0000000000000000     
           3   2103.4777088012274       -1330.3756140014443       -1518.9659046791569        589.45888534839548        0.0000000000000000     
           4   2103.4777088012274        1330.3756140014443        1518.9659046791569       -589.45888534839548        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.5659465273411872E-006           OLP:   -1.5659465273411893E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.8078558125569831E-006           OLP:   -1.8078558125570649E-006
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
 REAL 1: keeping split order            1
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
ABS integral  = 0.6129E-08  +/-  0.3461E-10  (   0.565 %)
Integral      = 0.3265E-08  +/-  0.3530E-10  (   1.081 %)
Virtual       = -.2436E-10  +/-  0.1710E-10  (  70.204 %)
Virtual ratio = -.2916E+00  +/-  0.3689E-03  (   0.127 %)
ABS virtual   = 0.2935E-08  +/-  0.1665E-10  (   0.567 %)
Born          = 0.1677E-07  +/-  0.7712E-10  (   0.460 %)
V  2          = -.2436E-10  +/-  0.1710E-10  (  70.204 %)
B  2          = 0.1677E-07  +/-  0.7712E-10  (   0.460 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6129E-08  +/-  0.3461E-10  (   0.565 %)
accumulated results Integral      = 0.3265E-08  +/-  0.3530E-10  (   1.081 %)
accumulated results Virtual       = -.2436E-10  +/-  0.1710E-10  (  70.204 %)
accumulated results Virtual ratio = -.2916E+00  +/-  0.3689E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2935E-08  +/-  0.1665E-10  (   0.567 %)
accumulated results Born          = 0.1677E-07  +/-  0.7712E-10  (   0.460 %)
accumulated results V  2          = -.2436E-10  +/-  0.1710E-10  (  70.204 %)
accumulated results B  2          = 0.1677E-07  +/-  0.7712E-10  (   0.460 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                     1                                             2
  2:  0                           1                   2                          3                        4
channel    1 :     1 T   481300    11605  0.1060E-08  0.4945E-09  0.8140E+00
channel    2 :     1 T    16424    11053  0.1046E-08  0.5501E-09  0.8767E+00
channel    3 :     2 T    31040    21384  0.2019E-08  0.1064E-08  0.8289E+00
channel    4 :     2 T    31109    21494  0.2005E-08  0.1156E-08  0.9395E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.1294167409853827E-009  +/-   3.4609686416329686E-011
 Final result:   3.2647476427339504E-009  +/-   3.5297266827968459E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363274
   Stability unknown:                                          0
   Stable PS point:                                       363274
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363274
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363274
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.19610333    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.81958818    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.17554283    
 Time spent in Integrated_CT :    8.96636963    
 Time spent in Virtuals :    547.608276    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    6.99515915    
 Time spent in N1body_prefactor :   0.590553701    
 Time spent in Adding_alphas_pdf :    5.64045620    
 Time spent in Reweight_scale :    26.3830223    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.0867262    
 Time spent in Applying_cuts :    4.92987442    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.3660126    
 Time spent in Other_tasks :    20.0932007    
 Time spent in Total :    679.850891    
Time in seconds: 702



LOG file for integration channel /P0_bxb_emep/all_G1_100, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28356
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:      720895
 Maximum number of iterations is:           1
 Desired accuracy is:   1.5059561738540903E-002
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:         100
 Weight multiplier:   1.0000000000000000E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7      720895           1
 imode is           -1
channel    1 :     1 F        0    11605  0.3076E-05  0.0000E+00  0.8320E+00
channel    2 :     1 F        0    11053  0.1065E-06  0.0000E+00  0.9243E+00
channel    3 :     2 F        0    21384  0.1982E-06  0.0000E+00  0.8320E+00
channel    4 :     2 F        0    21494  0.1989E-06  0.0000E+00  0.9824E+00
 ------- iteration           1
 Update # PS points (even_rn):       720895  -->       559872
Using random seed offsets:     0 ,      6 , 315700
  with seed                   49
 Ranmar initialization seeds         124       24319
 initial-final FKS maps:
           0 :           6           1           2           3           4           5           6
           1 :           2           3           4           0           0           0           0
           2 :           4           1           2           5           6           0           0
 Total number of FKS directories is           6
 For the Born we use nFKSprocesses:
           1           2           3           4           1           2
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.432832D+04 0.432832D+04  1.00
 muF1, muF1_reference: 0.432832D+04 0.432832D+04  1.00
 muF2, muF2_reference: 0.432832D+04 0.432832D+04  1.00
 QES,  QES_reference:  0.432832D+04 0.432832D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.4827107468806470E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1           1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1          -1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           6          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           9           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          10           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1           1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          13           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1          -1           1          -1 T
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.4827107468806470E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4875533761529824E-006           OLP:   -1.4875533761529829E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6658923085511940E-006           OLP:   -1.6658923085511820E-006
  FINITE:
           OLP:   -1.5805971536716779E-004
           BORN:    5.5731880290812031E-004
  MOMENTA (Exyzm): 
           1   2164.1584014821856        0.0000000000000000        0.0000000000000000        2164.1584014821856        0.0000000000000000     
           2   2164.1584014821856       -0.0000000000000000       -0.0000000000000000       -2164.1584014821856        0.0000000000000000     
           3   2164.1584014821856       -1988.8521722176938       -536.51434060523013        663.47643974433947        0.0000000000000000     
           4   2164.1584014821856        1988.8521722176938        536.51434060523013       -663.47643974433947        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -1.4875533761529824E-006           OLP:   -1.4875533761529829E-006
  COEFFICIENT SINGLE POLE:
        MadFKS:   -1.6658923085511938E-006           OLP:   -1.6658923085511820E-006
 REAL 1: keeping split order            1
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   4     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 Error #15 in genps_fks.f  -1.0132789611816406E-006           3
ABS integral  = 0.6083E-08  +/-  0.3494E-10  (   0.574 %)
Integral      = 0.3172E-08  +/-  0.3562E-10  (   1.123 %)
Virtual       = -.2281E-12  +/-  0.1688E-10  ( ******* %)
Virtual ratio = -.2911E+00  +/-  0.3694E-03  (   0.127 %)
ABS virtual   = 0.2937E-08  +/-  0.1642E-10  (   0.559 %)
Born          = 0.1671E-07  +/-  0.7698E-10  (   0.461 %)
V  2          = -.2281E-12  +/-  0.1688E-10  ( ******* %)
B  2          = 0.1671E-07  +/-  0.7698E-10  (   0.461 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.6083E-08  +/-  0.3494E-10  (   0.574 %)
accumulated results Integral      = 0.3172E-08  +/-  0.3562E-10  (   1.123 %)
accumulated results Virtual       = -.2281E-12  +/-  0.1688E-10  ( ******* %)
accumulated results Virtual ratio = -.2911E+00  +/-  0.3694E-03  (   0.127 %)
accumulated results ABS virtual   = 0.2937E-08  +/-  0.1642E-10  (   0.559 %)
accumulated results Born          = 0.1671E-07  +/-  0.7698E-10  (   0.461 %)
accumulated results V  2          = -.2281E-12  +/-  0.1688E-10  ( ******* %)
accumulated results B  2          = 0.1671E-07  +/-  0.7698E-10  (   0.461 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                    1                                              2
  2:  0                           1                    2                         3                        4
channel    1 :     1 T   480994    11605  0.1061E-08  0.5018E-09  0.8681E+00
channel    2 :     1 T    16651    11053  0.1055E-08  0.5473E-09  0.9020E+00
channel    3 :     2 T    31019    21384  0.1990E-08  0.1006E-08  0.8192E+00
channel    4 :     2 T    31214    21494  0.1977E-08  0.1117E-08  0.8869E+00
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   6.0826237632322393E-009  +/-   3.4936798928941338E-011
 Final result:   3.1717480044641843E-009  +/-   3.5618746068743668E-011
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    363415
   Stability unknown:                                          0
   Stable PS point:                                       363415
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 363415
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       363415
 counters for the granny resonances
 ntot                0
 Time spent in Born :    1.20631576    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    3.81996655    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    4.15106678    
 Time spent in Integrated_CT :    8.82983398    
 Time spent in Virtuals :    549.522217    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    7.12316799    
 Time spent in N1body_prefactor :   0.630586982    
 Time spent in Adding_alphas_pdf :    5.63439035    
 Time spent in Reweight_scale :    26.3432159    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    13.1808071    
 Time spent in Applying_cuts :    4.84611702    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    36.4371681    
 Time spent in Other_tasks :    20.2545166    
 Time spent in Total :    681.979431    
Time in seconds: 703



LOG file for integration channel /P0_aa_emep/all_G1_1, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28389
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1485321
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6843003388403058E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           1
 Weight multiplier:   5.0000000000000003E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1485321           1
 imode is           -1
channel    1 :     1 F        0     9508  0.3350E-05  0.0000E+00  0.4234E+00
channel    2 :     1 F        0    22710  0.7934E-05  0.0000E+00  0.7099E-01
channel    3 :     2 F        0    10065  0.3329E-05  0.0000E+00  0.4705E+00
channel    4 :     2 F        0    23253  0.7918E-05  0.0000E+00  0.6557E-01
 ------- iteration           1
 Update # PS points (even_rn):      1485321  -->      1399680
Using random seed offsets:     0 ,      7 ,   3157
  with seed                   49
 Ranmar initialization seeds         124       12587
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.364783D+04 0.364783D+04  1.00
 muF1, muF1_reference: 0.364783D+04 0.364783D+04  1.00
 muF2, muF2_reference: 0.364783D+04 0.364783D+04  1.00
 QES,  QES_reference:  0.364783D+04 0.364783D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.6051957235258705E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 8: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 4: keeping split order            1
 REAL 2: keeping split order            1
 REAL 6: keeping split order            1
 REAL 3: keeping split order            1
 REAL 7: keeping split order            1
 REAL 5: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.2755313621463993E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.5418126649354096E-004           OLP:   -2.5418126649354151E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.4842261800875962E-004           OLP:    7.4842261800876211E-004
  FINITE:
           OLP:   -4.9775399712971551E-003
           BORN:   0.10581132858439180     
  MOMENTA (Exyzm): 
           1   2928.9629180585994        0.0000000000000000        0.0000000000000000        2928.9629180585994        0.0000000000000000     
           2   2928.9629180585994       -0.0000000000000000       -0.0000000000000000       -2928.9629180585994        0.0000000000000000     
           3   2928.9629180585994        1576.9504282865198        1366.2334748163421        2055.5916944715877        0.0000000000000000     
           4   2928.9629180585994       -1576.9504282865198       -1366.2334748163421       -2055.5916944715877        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.5418126649354096E-004           OLP:   -2.5418126649354151E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.4842261800875962E-004           OLP:    7.4842261800876211E-004
 REAL 9: keeping split order            1
ABS integral  = 0.1129E-05  +/-  0.2026E-08  (   0.179 %)
Integral      = 0.4899E-06  +/-  0.2201E-08  (   0.449 %)
Virtual       = 0.1748E-08  +/-  0.1106E-08  (  63.267 %)
Virtual ratio = -.8677E-01  +/-  0.5810E-03  (   0.670 %)
ABS virtual   = 0.2697E-06  +/-  0.1082E-08  (   0.401 %)
Born          = 0.3116E-06  +/-  0.1003E-08  (   0.322 %)
V  2          = 0.1748E-08  +/-  0.1106E-08  (  63.267 %)
B  2          = 0.3116E-06  +/-  0.1003E-08  (   0.322 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1129E-05  +/-  0.2026E-08  (   0.179 %)
accumulated results Integral      = 0.4899E-06  +/-  0.2201E-08  (   0.449 %)
accumulated results Virtual       = 0.1748E-08  +/-  0.1106E-08  (  63.267 %)
accumulated results Virtual ratio = -.8677E-01  +/-  0.5810E-03  (   0.670 %)
accumulated results ABS virtual   = 0.2697E-06  +/-  0.1082E-08  (   0.401 %)
accumulated results Born          = 0.3116E-06  +/-  0.1003E-08  (   0.322 %)
accumulated results V  2          = 0.1748E-08  +/-  0.1106E-08  (  63.267 %)
accumulated results B  2          = 0.3116E-06  +/-  0.1003E-08  (   0.322 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                       1                                           2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   208668     9508  0.1682E-06  0.1362E-06  0.4253E+00
channel    2 :     1 T   492493    22710  0.3963E-06  0.1076E-06  0.7011E-01
channel    3 :     2 T   207268    10065  0.1666E-06  0.1369E-06  0.4585E+00
channel    4 :     2 T   491251    23253  0.3981E-06  0.1093E-06  0.6889E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1292295200537291E-006  +/-   2.0264541121668886E-009
 Final result:   4.8989976820341895E-007  +/-   2.2013821898020823E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    188488
   Stability unknown:                                          0
   Stable PS point:                                       188488
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 188488
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       188488
 counters for the granny resonances
 ntot                0
 Time spent in Born :    3.53757548    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.3726578    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    14.6830044    
 Time spent in Integrated_CT :    27.5498657    
 Time spent in Virtuals :    393.506927    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    30.4211578    
 Time spent in N1body_prefactor :    1.39149547    
 Time spent in Adding_alphas_pdf :    12.6652603    
 Time spent in Reweight_scale :    58.8197937    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    31.2216568    
 Time spent in Applying_cuts :    8.91283894    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    128.135666    
 Time spent in Other_tasks :    43.9379272    
 Time spent in Total :    767.155884    
Time in seconds: 807



LOG file for integration channel /P0_aa_emep/all_G1_2, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28401
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1485321
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6843003388403058E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           2
 Weight multiplier:   5.0000000000000003E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1485321           1
 imode is           -1
channel    1 :     1 F        0     9508  0.3350E-05  0.0000E+00  0.4234E+00
channel    2 :     1 F        0    22710  0.7934E-05  0.0000E+00  0.7099E-01
channel    3 :     2 F        0    10065  0.3329E-05  0.0000E+00  0.4705E+00
channel    4 :     2 F        0    23253  0.7918E-05  0.0000E+00  0.6557E-01
 ------- iteration           1
 Update # PS points (even_rn):      1485321  -->      1399680
Using random seed offsets:     0 ,      7 ,   6314
  with seed                   49
 Ranmar initialization seeds         124       15744
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.403672D+04 0.403672D+04  1.00
 muF1, muF1_reference: 0.403672D+04 0.403672D+04  1.00
 muF2, muF2_reference: 0.403672D+04 0.403672D+04  1.00
 QES,  QES_reference:  0.403672D+04 0.403672D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5321809914654439E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 8: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 4: keeping split order            1
 REAL 3: keeping split order            1
 REAL 7: keeping split order            1
 REAL 6: keeping split order            1
 REAL 5: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 REAL 9: keeping split order            1
 alpha_s value used for the virtuals is (for the first PS point):    7.2980042696753095E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.5362860118386950E-004           OLP:   -2.5362860118387004E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.4679532570806032E-004           OLP:    7.4679532570806140E-004
  FINITE:
           OLP:   -4.6090980116914957E-003
           BORN:   0.10558126343645403     
  MOMENTA (Exyzm): 
           1   2831.9753464964365        0.0000000000000000        0.0000000000000000        2831.9753464964365        0.0000000000000000     
           2   2831.9753464964365       -0.0000000000000000       -0.0000000000000000       -2831.9753464964365        0.0000000000000000     
           3   2831.9753464964365       -2004.5614118256271       -241.20435458601028       -1985.8596044816477        0.0000000000000000     
           4   2831.9753464964365        2004.5614118256271        241.20435458601028        1985.8596044816477        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.5362860118386950E-004           OLP:   -2.5362860118387004E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.4679532570806032E-004           OLP:    7.4679532570806140E-004
ABS integral  = 0.1130E-05  +/-  0.2029E-08  (   0.180 %)
Integral      = 0.4870E-06  +/-  0.2205E-08  (   0.453 %)
Virtual       = 0.7429E-09  +/-  0.1079E-08  ( 145.252 %)
Virtual ratio = -.8707E-01  +/-  0.5805E-03  (   0.667 %)
ABS virtual   = 0.2688E-06  +/-  0.1055E-08  (   0.392 %)
Born          = 0.3109E-06  +/-  0.9891E-09  (   0.318 %)
V  2          = 0.7429E-09  +/-  0.1079E-08  ( 145.252 %)
B  2          = 0.3109E-06  +/-  0.9891E-09  (   0.318 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1130E-05  +/-  0.2029E-08  (   0.180 %)
accumulated results Integral      = 0.4870E-06  +/-  0.2205E-08  (   0.453 %)
accumulated results Virtual       = 0.7429E-09  +/-  0.1079E-08  ( 145.252 %)
accumulated results Virtual ratio = -.8707E-01  +/-  0.5805E-03  (   0.667 %)
accumulated results ABS virtual   = 0.2688E-06  +/-  0.1055E-08  (   0.392 %)
accumulated results Born          = 0.3109E-06  +/-  0.9891E-09  (   0.318 %)
accumulated results V  2          = 0.7429E-09  +/-  0.1079E-08  ( 145.252 %)
accumulated results B  2          = 0.3109E-06  +/-  0.9891E-09  (   0.318 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                       1                                           2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   208290     9508  0.1686E-06  0.1360E-06  0.3894E+00
channel    2 :     1 T   492737    22710  0.3972E-06  0.1081E-06  0.6933E-01
channel    3 :     2 T   206857    10065  0.1659E-06  0.1357E-06  0.4334E+00
channel    4 :     2 T   491794    23253  0.3986E-06  0.1071E-06  0.6810E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1303485085344092E-006  +/-   2.0291122809130532E-009
 Final result:   4.8697000059903215E-007  +/-   2.2047029555584074E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    188542
   Stability unknown:                                          0
   Stable PS point:                                       188542
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 188542
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       188542
 counters for the granny resonances
 ntot                0
 Time spent in Born :    3.21327209    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.4849577    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    14.5370083    
 Time spent in Integrated_CT :    23.1333008    
 Time spent in Virtuals :    398.575439    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    25.8734856    
 Time spent in N1body_prefactor :    1.40519845    
 Time spent in Adding_alphas_pdf :    12.7540722    
 Time spent in Reweight_scale :    59.3500404    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    30.7163277    
 Time spent in Applying_cuts :    8.90162563    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    124.865112    
 Time spent in Other_tasks :    43.9330444    
 Time spent in Total :    759.742859    
Time in seconds: 807



LOG file for integration channel /P0_aa_emep/all_G1_3, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28391
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1485321
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6843003388403058E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           3
 Weight multiplier:   5.0000000000000003E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1485321           1
 imode is           -1
channel    1 :     1 F        0     9508  0.3350E-05  0.0000E+00  0.4234E+00
channel    2 :     1 F        0    22710  0.7934E-05  0.0000E+00  0.7099E-01
channel    3 :     2 F        0    10065  0.3329E-05  0.0000E+00  0.4705E+00
channel    4 :     2 F        0    23253  0.7918E-05  0.0000E+00  0.6557E-01
 ------- iteration           1
 Update # PS points (even_rn):      1485321  -->      1399680
Using random seed offsets:     0 ,      7 ,   9471
  with seed                   49
 Ranmar initialization seeds         124       18901
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.347922D+04 0.347922D+04  1.00
 muF1, muF1_reference: 0.347922D+04 0.347922D+04  1.00
 muF2, muF2_reference: 0.347922D+04 0.347922D+04  1.00
 QES,  QES_reference:  0.347922D+04 0.347922D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.6397970640187607E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 8: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 4: keeping split order            1
 REAL 7: keeping split order            1
 REAL 1: keeping split order            1
 REAL 6: keeping split order            1
 REAL 2: keeping split order            1
 REAL 5: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.2864406279785396E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3557976795140844E-004           OLP:   -2.3557976795140687E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.9365153896803599E-004           OLP:    6.9365153896803415E-004
  FINITE:
           OLP:   -4.7243107052422533E-003
           BORN:    9.8067841813883921E-002
  MOMENTA (Exyzm): 
           1   2881.3987814224806        0.0000000000000000        0.0000000000000000        2881.3987814224806        0.0000000000000000     
           2   2881.3987814224806       -0.0000000000000000       -0.0000000000000000       -2881.3987814224806        0.0000000000000000     
           3   2881.3987814224806       -1108.1511143760476       -1796.8059527139594       -1961.1089754477596        0.0000000000000000     
           4   2881.3987814224806        1108.1511143760476        1796.8059527139594        1961.1089754477596        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3557976795140844E-004           OLP:   -2.3557976795140687E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.9365153896803599E-004           OLP:    6.9365153896803415E-004
 REAL 9: keeping split order            1
ABS integral  = 0.1129E-05  +/-  0.2142E-08  (   0.190 %)
Integral      = 0.4869E-06  +/-  0.2308E-08  (   0.474 %)
Virtual       = 0.3611E-09  +/-  0.1099E-08  ( 304.342 %)
Virtual ratio = -.8767E-01  +/-  0.5810E-03  (   0.663 %)
ABS virtual   = 0.2690E-06  +/-  0.1075E-08  (   0.400 %)
Born          = 0.3100E-06  +/-  0.9822E-09  (   0.317 %)
V  2          = 0.3611E-09  +/-  0.1099E-08  ( 304.342 %)
B  2          = 0.3100E-06  +/-  0.9822E-09  (   0.317 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1129E-05  +/-  0.2142E-08  (   0.190 %)
accumulated results Integral      = 0.4869E-06  +/-  0.2308E-08  (   0.474 %)
accumulated results Virtual       = 0.3611E-09  +/-  0.1099E-08  ( 304.342 %)
accumulated results Virtual ratio = -.8767E-01  +/-  0.5810E-03  (   0.663 %)
accumulated results ABS virtual   = 0.2690E-06  +/-  0.1075E-08  (   0.400 %)
accumulated results Born          = 0.3100E-06  +/-  0.9822E-09  (   0.317 %)
accumulated results V  2          = 0.3611E-09  +/-  0.1099E-08  ( 304.342 %)
accumulated results B  2          = 0.3100E-06  +/-  0.9822E-09  (   0.317 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                       1                                           2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   208160     9508  0.1678E-06  0.1366E-06  0.4296E+00
channel    2 :     1 T   493296    22710  0.3961E-06  0.1080E-06  0.7198E-01
channel    3 :     2 T   206458    10065  0.1659E-06  0.1347E-06  0.4257E+00
channel    4 :     2 T   491763    23253  0.3987E-06  0.1075E-06  0.6048E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1285191971861761E-006  +/-   2.1419442720238793E-009
 Final result:   4.8685116959037027E-007  +/-   2.3083488011656379E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    188192
   Stability unknown:                                          0
   Stable PS point:                                       188192
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 188192
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       188192
 counters for the granny resonances
 ntot                0
 Time spent in Born :    3.55556917    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.5230722    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    14.7388697    
 Time spent in Integrated_CT :    27.9141846    
 Time spent in Virtuals :    395.353821    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    30.7424393    
 Time spent in N1body_prefactor :    1.38705444    
 Time spent in Adding_alphas_pdf :    12.8037338    
 Time spent in Reweight_scale :    59.8368988    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    30.9688568    
 Time spent in Applying_cuts :    8.86380768    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    129.991455    
 Time spent in Other_tasks :    43.9593506    
 Time spent in Total :    772.639160    
Time in seconds: 811



LOG file for integration channel /P0_aa_emep/all_G1_4, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28396
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1485321
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6843003388403058E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           4
 Weight multiplier:   5.0000000000000003E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1485321           1
 imode is           -1
channel    1 :     1 F        0     9508  0.3350E-05  0.0000E+00  0.4234E+00
channel    2 :     1 F        0    22710  0.7934E-05  0.0000E+00  0.7099E-01
channel    3 :     2 F        0    10065  0.3329E-05  0.0000E+00  0.4705E+00
channel    4 :     2 F        0    23253  0.7918E-05  0.0000E+00  0.6557E-01
 ------- iteration           1
 Update # PS points (even_rn):      1485321  -->      1399680
Using random seed offsets:     0 ,      7 ,  12628
  with seed                   49
 Ranmar initialization seeds         124       22058
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.399307D+04 0.399307D+04  1.00
 muF1, muF1_reference: 0.399307D+04 0.399307D+04  1.00
 muF2, muF2_reference: 0.399307D+04 0.399307D+04  1.00
 QES,  QES_reference:  0.399307D+04 0.399307D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5399506589325690E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 1: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 8: keeping split order            1
 REAL 5: keeping split order            1
 REAL 2: keeping split order            1
 REAL 4: keeping split order            1
 REAL 6: keeping split order            1
 REAL 7: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.2876687872347384E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.7067886708573096E-004           OLP:   -2.7067886708573188E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.9699888641909669E-004           OLP:    7.9699888641909886E-004
  FINITE:
           OLP:   -4.8226411637747792E-003
           BORN:   0.11267899850041461     
  MOMENTA (Exyzm): 
           1   2876.1014251903011        0.0000000000000000        0.0000000000000000        2876.1014251903011        0.0000000000000000     
           2   2876.1014251903011       -0.0000000000000000       -0.0000000000000000       -2876.1014251903011        0.0000000000000000     
           3   2876.1014251903011       -1192.5470135226651       -1606.7206673973187       -2065.9718597982328        0.0000000000000000     
           4   2876.1014251903011        1192.5470135226651        1606.7206673973187        2065.9718597982328        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.7067886708573096E-004           OLP:   -2.7067886708573188E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.9699888641909669E-004           OLP:    7.9699888641909886E-004
 REAL 9: keeping split order            1
ABS integral  = 0.1128E-05  +/-  0.2043E-08  (   0.181 %)
Integral      = 0.4850E-06  +/-  0.2216E-08  (   0.457 %)
Virtual       = -.1296E-08  +/-  0.1097E-08  (  84.618 %)
Virtual ratio = -.8678E-01  +/-  0.5813E-03  (   0.670 %)
ABS virtual   = 0.2683E-06  +/-  0.1073E-08  (   0.400 %)
Born          = 0.3097E-06  +/-  0.9874E-09  (   0.319 %)
V  2          = -.1296E-08  +/-  0.1097E-08  (  84.618 %)
B  2          = 0.3097E-06  +/-  0.9874E-09  (   0.319 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1128E-05  +/-  0.2043E-08  (   0.181 %)
accumulated results Integral      = 0.4850E-06  +/-  0.2216E-08  (   0.457 %)
accumulated results Virtual       = -.1296E-08  +/-  0.1097E-08  (  84.618 %)
accumulated results Virtual ratio = -.8678E-01  +/-  0.5813E-03  (   0.670 %)
accumulated results ABS virtual   = 0.2683E-06  +/-  0.1073E-08  (   0.400 %)
accumulated results Born          = 0.3097E-06  +/-  0.9874E-09  (   0.319 %)
accumulated results V  2          = -.1296E-08  +/-  0.1097E-08  (  84.618 %)
accumulated results B  2          = 0.3097E-06  +/-  0.9874E-09  (   0.319 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                       1                                           2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   208067     9508  0.1674E-06  0.1354E-06  0.4030E+00
channel    2 :     1 T   493216    22710  0.3968E-06  0.1060E-06  0.6776E-01
channel    3 :     2 T   207268    10065  0.1652E-06  0.1358E-06  0.4603E+00
channel    4 :     2 T   491130    23253  0.3981E-06  0.1079E-06  0.6944E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1275485790114359E-006  +/-   2.0426037439057625E-009
 Final result:   4.8495901446817236E-007  +/-   2.2164223946644874E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    187991
   Stability unknown:                                          0
   Stable PS point:                                       187991
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 187991
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       187991
 counters for the granny resonances
 ntot                0
 Time spent in Born :    3.60079241    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.5237370    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    14.9181814    
 Time spent in Integrated_CT :    27.8328857    
 Time spent in Virtuals :    394.415009    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    30.7900410    
 Time spent in N1body_prefactor :    1.39864528    
 Time spent in Adding_alphas_pdf :    12.8863297    
 Time spent in Reweight_scale :    59.9347458    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    31.1425953    
 Time spent in Applying_cuts :    8.92648506    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    129.769012    
 Time spent in Other_tasks :    44.1540527    
 Time spent in Total :    772.292480    
Time in seconds: 810



LOG file for integration channel /P0_aa_emep/all_G1_5, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28392
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1485321
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6843003388403058E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           5
 Weight multiplier:   5.0000000000000003E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1485321           1
 imode is           -1
channel    1 :     1 F        0     9508  0.3350E-05  0.0000E+00  0.4234E+00
channel    2 :     1 F        0    22710  0.7934E-05  0.0000E+00  0.7099E-01
channel    3 :     2 F        0    10065  0.3329E-05  0.0000E+00  0.4705E+00
channel    4 :     2 F        0    23253  0.7918E-05  0.0000E+00  0.6557E-01
 ------- iteration           1
 Update # PS points (even_rn):      1485321  -->      1399680
Using random seed offsets:     0 ,      7 ,  15785
  with seed                   49
 Ranmar initialization seeds         124       25215
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.411409D+04 0.411409D+04  1.00
 muF1, muF1_reference: 0.411409D+04 0.411409D+04  1.00
 muF2, muF2_reference: 0.411409D+04 0.411409D+04  1.00
 QES,  QES_reference:  0.411409D+04 0.411409D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5186510911137081E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 4: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 6: keeping split order            1
 REAL 7: keeping split order            1
 REAL 8: keeping split order            1
 REAL 2: keeping split order            1
 REAL 5: keeping split order            1
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.2948924488329847E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.5683038515181923E-004           OLP:   -2.5683038515181988E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.5622280072480121E-004           OLP:    7.5622280072480284E-004
  FINITE:
           OLP:   -4.6682468873266367E-003
           BORN:   0.10691411152617578     
  MOMENTA (Exyzm): 
           1   2845.1760725702925        0.0000000000000000        0.0000000000000000        2845.1760725702925        0.0000000000000000     
           2   2845.1760725702925       -0.0000000000000000       -0.0000000000000000       -2845.1760725702925        0.0000000000000000     
           3   2845.1760725702925       -1399.5368655722236       -1455.1476079769066       -2004.7116712459867        0.0000000000000000     
           4   2845.1760725702925        1399.5368655722236        1455.1476079769066        2004.7116712459867        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.5683038515181923E-004           OLP:   -2.5683038515181988E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.5622280072480121E-004           OLP:    7.5622280072480284E-004
 REAL 9: keeping split order            1
ABS integral  = 0.1131E-05  +/-  0.2337E-08  (   0.207 %)
Integral      = 0.4814E-06  +/-  0.2492E-08  (   0.518 %)
Virtual       = 0.5706E-10  +/-  0.1092E-08  ( ******* %)
Virtual ratio = -.8792E-01  +/-  0.5814E-03  (   0.661 %)
ABS virtual   = 0.2691E-06  +/-  0.1068E-08  (   0.397 %)
Born          = 0.3107E-06  +/-  0.9962E-09  (   0.321 %)
V  2          = 0.5706E-10  +/-  0.1092E-08  ( ******* %)
B  2          = 0.3107E-06  +/-  0.9962E-09  (   0.321 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1131E-05  +/-  0.2337E-08  (   0.207 %)
accumulated results Integral      = 0.4814E-06  +/-  0.2492E-08  (   0.518 %)
accumulated results Virtual       = 0.5706E-10  +/-  0.1092E-08  ( ******* %)
accumulated results Virtual ratio = -.8792E-01  +/-  0.5814E-03  (   0.661 %)
accumulated results ABS virtual   = 0.2691E-06  +/-  0.1068E-08  (   0.397 %)
accumulated results Born          = 0.3107E-06  +/-  0.9962E-09  (   0.321 %)
accumulated results V  2          = 0.5706E-10  +/-  0.1092E-08  ( ******* %)
accumulated results B  2          = 0.3107E-06  +/-  0.9962E-09  (   0.321 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                       1                                           2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   208016     9508  0.1678E-06  0.1356E-06  0.4183E+00
channel    2 :     1 T   492444    22710  0.3975E-06  0.1034E-06  0.5362E-01
channel    3 :     2 T   207122    10065  0.1655E-06  0.1357E-06  0.4629E+00
channel    4 :     2 T   492097    23253  0.4000E-06  0.1067E-06  0.6547E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1308747301330944E-006  +/-   2.3367904969962126E-009
 Final result:   4.8135825703633723E-007  +/-   2.4917344861883381E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    188373
   Stability unknown:                                          0
   Stable PS point:                                       188373
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 188373
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       188373
 counters for the granny resonances
 ntot                0
 Time spent in Born :    3.25932741    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.6207695    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    14.6843500    
 Time spent in Integrated_CT :    23.4878540    
 Time spent in Virtuals :    395.972809    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    26.3314552    
 Time spent in N1body_prefactor :    1.39586163    
 Time spent in Adding_alphas_pdf :    13.0384808    
 Time spent in Reweight_scale :    60.9031906    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    32.0096207    
 Time spent in Applying_cuts :    9.11450863    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    128.588867    
 Time spent in Other_tasks :    44.7403564    
 Time spent in Total :    766.147461    
Time in seconds: 807



LOG file for integration channel /P0_aa_emep/all_G1_6, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28393
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1485321
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6843003388403058E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           6
 Weight multiplier:   5.0000000000000003E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1485321           1
 imode is           -1
channel    1 :     1 F        0     9508  0.3350E-05  0.0000E+00  0.4234E+00
channel    2 :     1 F        0    22710  0.7934E-05  0.0000E+00  0.7099E-01
channel    3 :     2 F        0    10065  0.3329E-05  0.0000E+00  0.4705E+00
channel    4 :     2 F        0    23253  0.7918E-05  0.0000E+00  0.6557E-01
 ------- iteration           1
 Update # PS points (even_rn):      1485321  -->      1399680
Using random seed offsets:     0 ,      7 ,  18942
  with seed                   49
 Ranmar initialization seeds         124       28372
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.410654D+04 0.410654D+04  1.00
 muF1, muF1_reference: 0.410654D+04 0.410654D+04  1.00
 muF2, muF2_reference: 0.410654D+04 0.410654D+04  1.00
 QES,  QES_reference:  0.410654D+04 0.410654D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5199588234802148E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 6: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 4: keeping split order            1
 REAL 8: keeping split order            1
 REAL 7: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 REAL 9: keeping split order            1
 alpha_s value used for the virtuals is (for the first PS point):    7.3235046821556696E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3317930623235428E-004           OLP:   -2.3317930623235403E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.8658351279526539E-004           OLP:    6.8658351279526474E-004
  FINITE:
           OLP:   -4.1608007211053552E-003
           BORN:    9.7068570517407207E-002
  MOMENTA (Exyzm): 
           1   2726.4890302295817        0.0000000000000000        0.0000000000000000        2726.4890302295817        0.0000000000000000     
           2   2726.4890302295817       -0.0000000000000000       -0.0000000000000000       -2726.4890302295817        0.0000000000000000     
           3   2726.4890302295817        1986.3389750764884        273.19763621574532        1847.5830047985553        0.0000000000000000     
           4   2726.4890302295817       -1986.3389750764884       -273.19763621574532       -1847.5830047985553        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3317930623235428E-004           OLP:   -2.3317930623235403E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.8658351279526539E-004           OLP:    6.8658351279526474E-004
 REAL 5: keeping split order            1
ABS integral  = 0.1133E-05  +/-  0.2081E-08  (   0.184 %)
Integral      = 0.4864E-06  +/-  0.2254E-08  (   0.463 %)
Virtual       = -.2919E-09  +/-  0.1103E-08  ( 377.959 %)
Virtual ratio = -.8753E-01  +/-  0.5807E-03  (   0.663 %)
ABS virtual   = 0.2722E-06  +/-  0.1079E-08  (   0.396 %)
Born          = 0.3124E-06  +/-  0.1000E-08  (   0.320 %)
V  2          = -.2919E-09  +/-  0.1103E-08  ( 377.959 %)
B  2          = 0.3124E-06  +/-  0.1000E-08  (   0.320 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1133E-05  +/-  0.2081E-08  (   0.184 %)
accumulated results Integral      = 0.4864E-06  +/-  0.2254E-08  (   0.463 %)
accumulated results Virtual       = -.2919E-09  +/-  0.1103E-08  ( 377.959 %)
accumulated results Virtual ratio = -.8753E-01  +/-  0.5807E-03  (   0.663 %)
accumulated results ABS virtual   = 0.2722E-06  +/-  0.1079E-08  (   0.396 %)
accumulated results Born          = 0.3124E-06  +/-  0.1000E-08  (   0.320 %)
accumulated results V  2          = -.2919E-09  +/-  0.1103E-08  ( 377.959 %)
accumulated results B  2          = 0.3124E-06  +/-  0.1000E-08  (   0.320 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                       1                                           2
  2:  0  1        2     3                               4  5        6     7                               8
channel    1 :     1 T   208863     9508  0.1678E-06  0.1363E-06  0.4320E+00
channel    2 :     1 T   493129    22710  0.3986E-06  0.1068E-06  0.6975E-01
channel    3 :     2 T   206725    10065  0.1657E-06  0.1359E-06  0.4448E+00
channel    4 :     2 T   490963    23253  0.4006E-06  0.1073E-06  0.6534E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1326581282064483E-006  +/-   2.0812803781555565E-009
 Final result:   4.8642582182031009E-007  +/-   2.2537211740823228E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    189219
   Stability unknown:                                          0
   Stable PS point:                                       189219
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 189219
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       189219
 counters for the granny resonances
 ntot                0
 Time spent in Born :    3.59548521    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.5433235    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    14.7275343    
 Time spent in Integrated_CT :    27.7567139    
 Time spent in Virtuals :    396.494781    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    30.8063049    
 Time spent in N1body_prefactor :    1.38760006    
 Time spent in Adding_alphas_pdf :    12.6839838    
 Time spent in Reweight_scale :    60.2136688    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    30.5808468    
 Time spent in Applying_cuts :    8.90204048    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    129.770264    
 Time spent in Other_tasks :    43.9491577    
 Time spent in Total :    773.411743    
Time in seconds: 811



LOG file for integration channel /P0_aa_emep/all_G1_7, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28403
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1485321
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6843003388403058E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           7
 Weight multiplier:   5.0000000000000003E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1485321           1
 imode is           -1
channel    1 :     1 F        0     9508  0.3350E-05  0.0000E+00  0.4234E+00
channel    2 :     1 F        0    22710  0.7934E-05  0.0000E+00  0.7099E-01
channel    3 :     2 F        0    10065  0.3329E-05  0.0000E+00  0.4705E+00
channel    4 :     2 F        0    23253  0.7918E-05  0.0000E+00  0.6557E-01
 ------- iteration           1
 Update # PS points (even_rn):      1485321  -->      1399680
Using random seed offsets:     0 ,      7 ,  22099
  with seed                   49
 Ranmar initialization seeds         124        1448
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.315637D+04 0.315637D+04  1.00
 muF1, muF1_reference: 0.315637D+04 0.315637D+04  1.00
 muF2, muF2_reference: 0.315637D+04 0.315637D+04  1.00
 QES,  QES_reference:  0.315637D+04 0.315637D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.7120366170607496E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 4: keeping split order            1
 REAL 7: keeping split order            1
 REAL 8: keeping split order            1
 REAL 5: keeping split order            1
 REAL 1: keeping split order            1
 REAL 6: keeping split order            1
 REAL 2: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3074776178784814E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.2756726915533411E-004           OLP:   -2.2756726915533452E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.7005918140181726E-004           OLP:    6.7005918140181780E-004
  FINITE:
           OLP:   -4.3757623380208882E-003
           BORN:    9.4732375142444522E-002
  MOMENTA (Exyzm): 
           1   2792.2323076666739        0.0000000000000000        0.0000000000000000        2792.2323076666739        0.0000000000000000     
           2   2792.2323076666739       -0.0000000000000000       -0.0000000000000000       -2792.2323076666739        0.0000000000000000     
           3   2792.2323076666739        2004.7874738949072        522.09306986995250        1872.1130497075774        0.0000000000000000     
           4   2792.2323076666739       -2004.7874738949072       -522.09306986995250       -1872.1130497075774        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.2756726915533411E-004           OLP:   -2.2756726915533452E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.7005918140181726E-004           OLP:    6.7005918140181780E-004
 REAL 9: keeping split order            1
ABS integral  = 0.1133E-05  +/-  0.2181E-08  (   0.193 %)
Integral      = 0.4794E-06  +/-  0.2348E-08  (   0.490 %)
Virtual       = -.1507E-08  +/-  0.1087E-08  (  72.127 %)
Virtual ratio = -.8809E-01  +/-  0.5818E-03  (   0.660 %)
ABS virtual   = 0.2694E-06  +/-  0.1063E-08  (   0.395 %)
Born          = 0.3098E-06  +/-  0.9892E-09  (   0.319 %)
V  2          = -.1507E-08  +/-  0.1087E-08  (  72.127 %)
B  2          = 0.3098E-06  +/-  0.9892E-09  (   0.319 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1133E-05  +/-  0.2181E-08  (   0.193 %)
accumulated results Integral      = 0.4794E-06  +/-  0.2348E-08  (   0.490 %)
accumulated results Virtual       = -.1507E-08  +/-  0.1087E-08  (  72.127 %)
accumulated results Virtual ratio = -.8809E-01  +/-  0.5818E-03  (   0.660 %)
accumulated results ABS virtual   = 0.2694E-06  +/-  0.1063E-08  (   0.395 %)
accumulated results Born          = 0.3098E-06  +/-  0.9892E-09  (   0.319 %)
accumulated results V  2          = -.1507E-08  +/-  0.1087E-08  (  72.127 %)
accumulated results B  2          = 0.3098E-06  +/-  0.9892E-09  (   0.319 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                       1                                           2
  2:  0  1        2     3                               4  5        6     7                               8
channel    1 :     1 T   207794     9508  0.1680E-06  0.1361E-06  0.4201E+00
channel    2 :     1 T   493372    22710  0.3994E-06  0.1044E-06  0.6649E-01
channel    3 :     2 T   206577    10065  0.1648E-06  0.1350E-06  0.4612E+00
channel    4 :     2 T   491935    23253  0.4008E-06  0.1039E-06  0.5980E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1329977968845366E-006  +/-   2.1814403281205401E-009
 Final result:   4.7938081419659061E-007  +/-   2.3476848248279532E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    187891
   Stability unknown:                                          0
   Stable PS point:                                       187891
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 187891
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       187891
 counters for the granny resonances
 ntot                0
 Time spent in Born :    3.56490183    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.3397684    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    14.6586590    
 Time spent in Integrated_CT :    27.5930176    
 Time spent in Virtuals :    393.862823    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    30.5420151    
 Time spent in N1body_prefactor :    1.39366472    
 Time spent in Adding_alphas_pdf :    14.0635281    
 Time spent in Reweight_scale :    63.4676247    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    30.7354450    
 Time spent in Applying_cuts :    8.80876923    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    128.750778    
 Time spent in Other_tasks :    43.6929932    
 Time spent in Total :    773.474060    
Time in seconds: 814



LOG file for integration channel /P0_aa_emep/all_G1_8, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28388
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1485321
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6843003388403058E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           8
 Weight multiplier:   5.0000000000000003E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1485321           1
 imode is           -1
channel    1 :     1 F        0     9508  0.3350E-05  0.0000E+00  0.4234E+00
channel    2 :     1 F        0    22710  0.7934E-05  0.0000E+00  0.7099E-01
channel    3 :     2 F        0    10065  0.3329E-05  0.0000E+00  0.4705E+00
channel    4 :     2 F        0    23253  0.7918E-05  0.0000E+00  0.6557E-01
 ------- iteration           1
 Update # PS points (even_rn):      1485321  -->      1399680
Using random seed offsets:     0 ,      7 ,  25256
  with seed                   49
 Ranmar initialization seeds         124        4605
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.277418D+04 0.277418D+04  1.00
 muF1, muF1_reference: 0.277418D+04 0.277418D+04  1.00
 muF2, muF2_reference: 0.277418D+04 0.277418D+04  1.00
 QES,  QES_reference:  0.277418D+04 0.277418D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.8099795069226721E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 4: keeping split order            1
 REAL 8: keeping split order            1
 REAL 5: keeping split order            1
 REAL 6: keeping split order            1
 REAL 7: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3142163914284089E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3974356673954315E-004           OLP:   -2.3974356673954380E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.0591161317754393E-004           OLP:    7.0591161317753396E-004
  FINITE:
           OLP:   -4.3174469896015786E-003
           BORN:    9.9801160275186859E-002
  MOMENTA (Exyzm): 
           1   2764.3633191471386        0.0000000000000000        0.0000000000000000        2764.3633191471386        0.0000000000000000     
           2   2764.3633191471386       -0.0000000000000000       -0.0000000000000000       -2764.3633191471386        0.0000000000000000     
           3   2764.3633191471386       -1483.4129024567194       -1359.7645291397062       -1895.3182177050348        0.0000000000000000     
           4   2764.3633191471386        1483.4129024567194        1359.7645291397062        1895.3182177050348        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3974356673954315E-004           OLP:   -2.3974356673954380E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.0591161317754393E-004           OLP:    7.0591161317753396E-004
 REAL 9: keeping split order            1
 Error #15 in genps_fks.f  -1.0803341865539551E-006           4
ABS integral  = 0.1134E-05  +/-  0.2099E-08  (   0.185 %)
Integral      = 0.4830E-06  +/-  0.2271E-08  (   0.470 %)
Virtual       = -.6661E-09  +/-  0.1113E-08  ( 167.059 %)
Virtual ratio = -.8820E-01  +/-  0.5824E-03  (   0.660 %)
ABS virtual   = 0.2712E-06  +/-  0.1089E-08  (   0.402 %)
Born          = 0.3114E-06  +/-  0.9968E-09  (   0.320 %)
V  2          = -.6661E-09  +/-  0.1113E-08  ( 167.059 %)
B  2          = 0.3114E-06  +/-  0.9968E-09  (   0.320 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1134E-05  +/-  0.2099E-08  (   0.185 %)
accumulated results Integral      = 0.4830E-06  +/-  0.2271E-08  (   0.470 %)
accumulated results Virtual       = -.6661E-09  +/-  0.1113E-08  ( 167.059 %)
accumulated results Virtual ratio = -.8820E-01  +/-  0.5824E-03  (   0.660 %)
accumulated results ABS virtual   = 0.2712E-06  +/-  0.1089E-08  (   0.402 %)
accumulated results Born          = 0.3114E-06  +/-  0.9968E-09  (   0.320 %)
accumulated results V  2          = -.6661E-09  +/-  0.1113E-08  ( 167.059 %)
accumulated results B  2          = 0.3114E-06  +/-  0.9968E-09  (   0.320 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                       1                                           2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   208328     9508  0.1675E-06  0.1352E-06  0.4287E+00
channel    2 :     1 T   492307    22710  0.3998E-06  0.1065E-06  0.7080E-01
channel    3 :     2 T   206792    10065  0.1660E-06  0.1358E-06  0.4455E+00
channel    4 :     2 T   492255    23253  0.4004E-06  0.1055E-06  0.6475E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1336147840192191E-006  +/-   2.0992748817587561E-009
 Final result:   4.8296365368350259E-007  +/-   2.2712183800066929E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    188295
   Stability unknown:                                          0
   Stable PS point:                                       188295
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 188295
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       188295
 counters for the granny resonances
 ntot                0
 Time spent in Born :    3.62395906    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.4855804    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    14.8045139    
 Time spent in Integrated_CT :    27.7266235    
 Time spent in Virtuals :    393.155273    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    30.6458702    
 Time spent in N1body_prefactor :    1.38876045    
 Time spent in Adding_alphas_pdf :    12.8850689    
 Time spent in Reweight_scale :    59.8577957    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    30.8667030    
 Time spent in Applying_cuts :    8.92214489    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    130.686996    
 Time spent in Other_tasks :    43.9425049    
 Time spent in Total :    770.991821    
Time in seconds: 810



LOG file for integration channel /P0_aa_emep/all_G1_9, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28394
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1485321
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6843003388403058E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:           9
 Weight multiplier:   5.0000000000000003E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1485321           1
 imode is           -1
channel    1 :     1 F        0     9508  0.3350E-05  0.0000E+00  0.4234E+00
channel    2 :     1 F        0    22710  0.7934E-05  0.0000E+00  0.7099E-01
channel    3 :     2 F        0    10065  0.3329E-05  0.0000E+00  0.4705E+00
channel    4 :     2 F        0    23253  0.7918E-05  0.0000E+00  0.6557E-01
 ------- iteration           1
 Update # PS points (even_rn):      1485321  -->      1399680
Using random seed offsets:     0 ,      7 ,  28413
  with seed                   49
 Ranmar initialization seeds         124        7762
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.404670D+04 0.404670D+04  1.00
 muF1, muF1_reference: 0.404670D+04 0.404670D+04  1.00
 muF2, muF2_reference: 0.404670D+04 0.404670D+04  1.00
 QES,  QES_reference:  0.404670D+04 0.404670D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5304187040522080E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 6: keeping split order            1
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 8: keeping split order            1
 REAL 4: keeping split order            1
 REAL 7: keeping split order            1
 REAL 5: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 F
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 F
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.2904256041851467E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.6382536709845377E-004           OLP:   -2.6382536709845382E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.7681913645655839E-004           OLP:    7.7681913645655872E-004
  FINITE:
           OLP:   -4.7601137845264645E-003
           BORN:   0.10982600327731724     
  MOMENTA (Exyzm): 
           1   2864.2524729493089        0.0000000000000000        0.0000000000000000        2864.2524729493089        0.0000000000000000     
           2   2864.2524729493089       -0.0000000000000000       -0.0000000000000000       -2864.2524729493089        0.0000000000000000     
           3   2864.2524729493089       -2011.7936442077730       -34.415378490106427       -2038.4906533130886        0.0000000000000000     
           4   2864.2524729493089        2011.7936442077730        34.415378490106427        2038.4906533130886        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.6382536709845377E-004           OLP:   -2.6382536709845382E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.7681913645655839E-004           OLP:    7.7681913645655872E-004
 REAL 9: keeping split order            1
ABS integral  = 0.1132E-05  +/-  0.2142E-08  (   0.189 %)
Integral      = 0.4845E-06  +/-  0.2310E-08  (   0.477 %)
Virtual       = 0.9159E-09  +/-  0.1091E-08  ( 119.086 %)
Virtual ratio = -.8758E-01  +/-  0.5821E-03  (   0.665 %)
ABS virtual   = 0.2701E-06  +/-  0.1067E-08  (   0.395 %)
Born          = 0.3108E-06  +/-  0.9870E-09  (   0.318 %)
V  2          = 0.9159E-09  +/-  0.1091E-08  ( 119.086 %)
B  2          = 0.3108E-06  +/-  0.9870E-09  (   0.318 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1132E-05  +/-  0.2142E-08  (   0.189 %)
accumulated results Integral      = 0.4845E-06  +/-  0.2310E-08  (   0.477 %)
accumulated results Virtual       = 0.9159E-09  +/-  0.1091E-08  ( 119.086 %)
accumulated results Virtual ratio = -.8758E-01  +/-  0.5821E-03  (   0.665 %)
accumulated results ABS virtual   = 0.2701E-06  +/-  0.1067E-08  (   0.395 %)
accumulated results Born          = 0.3108E-06  +/-  0.9870E-09  (   0.318 %)
accumulated results V  2          = 0.9159E-09  +/-  0.1091E-08  ( 119.086 %)
accumulated results B  2          = 0.3108E-06  +/-  0.9870E-09  (   0.318 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                       1                                           2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   208667     9508  0.1688E-06  0.1362E-06  0.3978E+00
channel    2 :     1 T   492779    22710  0.4014E-06  0.1056E-06  0.6299E-01
channel    3 :     2 T   207406    10065  0.1659E-06  0.1354E-06  0.4319E+00
channel    4 :     2 T   490825    23253  0.3959E-06  0.1073E-06  0.6840E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1319550472942741E-006  +/-   2.1417372106726598E-009
 Final result:   4.8447754945709991E-007  +/-   2.3097149797851586E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    188869
   Stability unknown:                                          0
   Stable PS point:                                       188869
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 188869
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       188869
 counters for the granny resonances
 ntot                0
 Time spent in Born :    3.22404814    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.8356409    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    15.1273603    
 Time spent in Integrated_CT :    23.4179688    
 Time spent in Virtuals :    397.499420    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    26.6104622    
 Time spent in N1body_prefactor :    1.38924873    
 Time spent in Adding_alphas_pdf :    13.1369839    
 Time spent in Reweight_scale :    61.3526802    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    31.9969006    
 Time spent in Applying_cuts :    8.96160030    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    128.648712    
 Time spent in Other_tasks :    44.9342651    
 Time spent in Total :    769.135315    
Time in seconds: 809



LOG file for integration channel /P0_aa_emep/all_G1_10, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28395
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1485321
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6843003388403058E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          10
 Weight multiplier:   5.0000000000000003E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1485321           1
 imode is           -1
channel    1 :     1 F        0     9508  0.3350E-05  0.0000E+00  0.4234E+00
channel    2 :     1 F        0    22710  0.7934E-05  0.0000E+00  0.7099E-01
channel    3 :     2 F        0    10065  0.3329E-05  0.0000E+00  0.4705E+00
channel    4 :     2 F        0    23253  0.7918E-05  0.0000E+00  0.6557E-01
 ------- iteration           1
 Update # PS points (even_rn):      1485321  -->      1399680
Using random seed offsets:     0 ,      7 ,  31570
  with seed                   49
 Ranmar initialization seeds         124       10919
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.229645D+04 0.229645D+04  1.00
 muF1, muF1_reference: 0.229645D+04 0.229645D+04  1.00
 muF2, muF2_reference: 0.229645D+04 0.229645D+04  1.00
 QES,  QES_reference:  0.229645D+04 0.229645D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.9579543504744582E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 4: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 5: keeping split order            1
 REAL 3: keeping split order            1
 REAL 8: keeping split order            1
 REAL 2: keeping split order            1
 REAL 7: keeping split order            1
 REAL 6: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 REAL 9: keeping split order            1
 alpha_s value used for the virtuals is (for the first PS point):    7.3131651079609408E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.4013157931789797E-004           OLP:   -2.4013157931789832E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.0705409465825523E-004           OLP:    7.0705409465825360E-004
  FINITE:
           OLP:   -4.3344825066150162E-003
           BORN:    9.9962683297672161E-002
  MOMENTA (Exyzm): 
           1   2768.6892495274155        0.0000000000000000        0.0000000000000000        2768.6892495274155        0.0000000000000000     
           2   2768.6892495274155       -0.0000000000000000       -0.0000000000000000       -2768.6892495274155        0.0000000000000000     
           3   2768.6892495274155       -1236.8062310795672       -1589.8556376160175       -1899.5550949503956        0.0000000000000000     
           4   2768.6892495274155        1236.8062310795672        1589.8556376160175        1899.5550949503956        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.4013157931789797E-004           OLP:   -2.4013157931789832E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.0705409465825523E-004           OLP:    7.0705409465825360E-004
 REAL 1: keeping split order            1
ABS integral  = 0.1132E-05  +/-  0.2056E-08  (   0.182 %)
Integral      = 0.4878E-06  +/-  0.2230E-08  (   0.457 %)
Virtual       = 0.2353E-08  +/-  0.1111E-08  (  47.190 %)
Virtual ratio = -.8669E-01  +/-  0.5809E-03  (   0.670 %)
ABS virtual   = 0.2702E-06  +/-  0.1087E-08  (   0.402 %)
Born          = 0.3114E-06  +/-  0.1003E-08  (   0.322 %)
V  2          = 0.2353E-08  +/-  0.1111E-08  (  47.190 %)
B  2          = 0.3114E-06  +/-  0.1003E-08  (   0.322 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1132E-05  +/-  0.2056E-08  (   0.182 %)
accumulated results Integral      = 0.4878E-06  +/-  0.2230E-08  (   0.457 %)
accumulated results Virtual       = 0.2353E-08  +/-  0.1111E-08  (  47.190 %)
accumulated results Virtual ratio = -.8669E-01  +/-  0.5809E-03  (   0.670 %)
accumulated results ABS virtual   = 0.2702E-06  +/-  0.1087E-08  (   0.402 %)
accumulated results Born          = 0.3114E-06  +/-  0.1003E-08  (   0.322 %)
accumulated results V  2          = 0.2353E-08  +/-  0.1111E-08  (  47.190 %)
accumulated results B  2          = 0.3114E-06  +/-  0.1003E-08  (   0.322 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                       1                                           2
  2:  0  1        2     3                               4  5        6     7                               8
channel    1 :     1 T   208703     9508  0.1687E-06  0.1361E-06  0.4083E+00
channel    2 :     1 T   492564    22710  0.3980E-06  0.1066E-06  0.7073E-01
channel    3 :     2 T   206457    10065  0.1651E-06  0.1355E-06  0.4585E+00
channel    4 :     2 T   491958    23253  0.4002E-06  0.1096E-06  0.6771E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1320069662508211E-006  +/-   2.0562891608034100E-009
 Final result:   4.8777921917190122E-007  +/-   2.2302153858723602E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    188562
   Stability unknown:                                          0
   Stable PS point:                                       188562
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 188562
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       188562
 counters for the granny resonances
 ntot                0
 Time spent in Born :    3.33844185    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.6964302    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    14.8150396    
 Time spent in Integrated_CT :    23.6649780    
 Time spent in Virtuals :    399.719849    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    26.5149250    
 Time spent in N1body_prefactor :    1.41780293    
 Time spent in Adding_alphas_pdf :    12.8246155    
 Time spent in Reweight_scale :    60.4115372    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    31.8171635    
 Time spent in Applying_cuts :    9.03097820    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    127.841568    
 Time spent in Other_tasks :    44.3943481    
 Time spent in Total :    768.487671    
Time in seconds: 808



LOG file for integration channel /P0_aa_emep/all_G1_11, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28406
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1485321
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6843003388403058E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          11
 Weight multiplier:   5.0000000000000003E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1485321           1
 imode is           -1
channel    1 :     1 F        0     9508  0.3350E-05  0.0000E+00  0.4234E+00
channel    2 :     1 F        0    22710  0.7934E-05  0.0000E+00  0.7099E-01
channel    3 :     2 F        0    10065  0.3329E-05  0.0000E+00  0.4705E+00
channel    4 :     2 F        0    23253  0.7918E-05  0.0000E+00  0.6557E-01
 ------- iteration           1
 Update # PS points (even_rn):      1485321  -->      1399680
Using random seed offsets:     0 ,      7 ,  34727
  with seed                   49
 Ranmar initialization seeds         124       14076
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.253906D+04 0.253906D+04  1.00
 muF1, muF1_reference: 0.253906D+04 0.253906D+04  1.00
 muF2, muF2_reference: 0.253906D+04 0.253906D+04  1.00
 QES,  QES_reference:  0.253906D+04 0.253906D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.8786203627786253E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 4: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 8: keeping split order            1
 REAL 2: keeping split order            1
 REAL 6: keeping split order            1
 REAL 3: keeping split order            1
 REAL 5: keeping split order            1
 REAL 7: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3146408874010027E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3911293208092371E-004           OLP:   -2.3911293208092431E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.0405474446049766E-004           OLP:    7.0405474446049777E-004
  FINITE:
           OLP:   -4.3092638370512432E-003
           BORN:    9.9538637816311698E-002
  MOMENTA (Exyzm): 
           1   2762.6188299539335        0.0000000000000000        0.0000000000000000        2762.6188299539335        0.0000000000000000     
           2   2762.6188299539335       -0.0000000000000000       -0.0000000000000000       -2762.6188299539335        0.0000000000000000     
           3   2762.6188299539335        1979.7698573412724        364.29422903004468        1892.0528074750885        0.0000000000000000     
           4   2762.6188299539335       -1979.7698573412724       -364.29422903004468       -1892.0528074750885        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3911293208092371E-004           OLP:   -2.3911293208092431E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.0405474446049766E-004           OLP:    7.0405474446049777E-004
 REAL 9: keeping split order            1
 Error #15 in genps_fks.f  -1.0759104043245316E-006           4
ABS integral  = 0.1131E-05  +/-  0.2210E-08  (   0.195 %)
Integral      = 0.4849E-06  +/-  0.2373E-08  (   0.489 %)
Virtual       = 0.1827E-08  +/-  0.1082E-08  (  59.204 %)
Virtual ratio = -.8701E-01  +/-  0.5817E-03  (   0.669 %)
ABS virtual   = 0.2689E-06  +/-  0.1058E-08  (   0.393 %)
Born          = 0.3095E-06  +/-  0.9855E-09  (   0.318 %)
V  2          = 0.1827E-08  +/-  0.1082E-08  (  59.204 %)
B  2          = 0.3095E-06  +/-  0.9855E-09  (   0.318 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1131E-05  +/-  0.2210E-08  (   0.195 %)
accumulated results Integral      = 0.4849E-06  +/-  0.2373E-08  (   0.489 %)
accumulated results Virtual       = 0.1827E-08  +/-  0.1082E-08  (  59.204 %)
accumulated results Virtual ratio = -.8701E-01  +/-  0.5817E-03  (   0.669 %)
accumulated results ABS virtual   = 0.2689E-06  +/-  0.1058E-08  (   0.393 %)
accumulated results Born          = 0.3095E-06  +/-  0.9855E-09  (   0.318 %)
accumulated results V  2          = 0.1827E-08  +/-  0.1082E-08  (  59.204 %)
accumulated results B  2          = 0.3095E-06  +/-  0.9855E-09  (   0.318 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                       1                                           2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   207664     9508  0.1675E-06  0.1350E-06  0.4102E+00
channel    2 :     1 T   493157    22710  0.3979E-06  0.1062E-06  0.7058E-01
channel    3 :     2 T   206723    10065  0.1654E-06  0.1352E-06  0.4580E+00
channel    4 :     2 T   492136    23253  0.3999E-06  0.1084E-06  0.5553E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1306900784842096E-006  +/-   2.2104355832102601E-009
 Final result:   4.8489367050697984E-007  +/-   2.3730649813865019E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    188540
   Stability unknown:                                          0
   Stable PS point:                                       188540
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 188540
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       188540
 counters for the granny resonances
 ntot                0
 Time spent in Born :    3.54108787    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.3348637    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    14.6063032    
 Time spent in Integrated_CT :    27.4002991    
 Time spent in Virtuals :    392.878815    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    30.4237270    
 Time spent in N1body_prefactor :    1.38691258    
 Time spent in Adding_alphas_pdf :    12.7374287    
 Time spent in Reweight_scale :    59.1593857    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    31.1188335    
 Time spent in Applying_cuts :    8.88245583    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    127.933495    
 Time spent in Other_tasks :    43.9594116    
 Time spent in Total :    766.362976    
Time in seconds: 807



LOG file for integration channel /P0_aa_emep/all_G1_12, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28407
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1485321
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6843003388403058E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          12
 Weight multiplier:   5.0000000000000003E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1485321           1
 imode is           -1
channel    1 :     1 F        0     9508  0.3350E-05  0.0000E+00  0.4234E+00
channel    2 :     1 F        0    22710  0.7934E-05  0.0000E+00  0.7099E-01
channel    3 :     2 F        0    10065  0.3329E-05  0.0000E+00  0.4705E+00
channel    4 :     2 F        0    23253  0.7918E-05  0.0000E+00  0.6557E-01
 ------- iteration           1
 Update # PS points (even_rn):      1485321  -->      1399680
Using random seed offsets:     0 ,      7 ,  37884
  with seed                   49
 Ranmar initialization seeds         124       17233
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.408469D+04 0.408469D+04  1.00
 muF1, muF1_reference: 0.408469D+04 0.408469D+04  1.00
 muF2, muF2_reference: 0.408469D+04 0.408469D+04  1.00
 QES,  QES_reference:  0.408469D+04 0.408469D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5237575969380646E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 4: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 1: keeping split order            1
 REAL 7: keeping split order            1
 REAL 2: keeping split order            1
 REAL 8: keeping split order            1
 REAL 3: keeping split order            1
 REAL 5: keeping split order            1
 REAL 6: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 F
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 F
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3099515319231312E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3910444018379655E-004           OLP:   -2.3910444018379601E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.0402974054117884E-004           OLP:    7.0402974054117884E-004
  FINITE:
           OLP:   -4.3802554028643161E-003
           BORN:    9.9535102784286622E-002
  MOMENTA (Exyzm): 
           1   2781.9626398362357        0.0000000000000000        0.0000000000000000        2781.9626398362357        0.0000000000000000     
           2   2781.9626398362357       -0.0000000000000000       -0.0000000000000000       -2781.9626398362357        0.0000000000000000     
           3   2781.9626398362357       -2025.3903111469049       -83.939154900700075       -1905.2727981135399        0.0000000000000000     
           4   2781.9626398362357        2025.3903111469049        83.939154900700075        1905.2727981135399        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3910444018379655E-004           OLP:   -2.3910444018379601E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.0402974054117884E-004           OLP:    7.0402974054117884E-004
 REAL 9: keeping split order            1
ABS integral  = 0.1130E-05  +/-  0.2128E-08  (   0.188 %)
Integral      = 0.4813E-06  +/-  0.2296E-08  (   0.477 %)
Virtual       = -.1072E-09  +/-  0.1091E-08  ( ******* %)
Virtual ratio = -.8732E-01  +/-  0.5811E-03  (   0.665 %)
ABS virtual   = 0.2691E-06  +/-  0.1067E-08  (   0.397 %)
Born          = 0.3107E-06  +/-  0.1004E-08  (   0.323 %)
V  2          = -.1072E-09  +/-  0.1091E-08  ( ******* %)
B  2          = 0.3107E-06  +/-  0.1004E-08  (   0.323 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1130E-05  +/-  0.2128E-08  (   0.188 %)
accumulated results Integral      = 0.4813E-06  +/-  0.2296E-08  (   0.477 %)
accumulated results Virtual       = -.1072E-09  +/-  0.1091E-08  ( ******* %)
accumulated results Virtual ratio = -.8732E-01  +/-  0.5811E-03  (   0.665 %)
accumulated results ABS virtual   = 0.2691E-06  +/-  0.1067E-08  (   0.397 %)
accumulated results Born          = 0.3107E-06  +/-  0.1004E-08  (   0.323 %)
accumulated results V  2          = -.1072E-09  +/-  0.1091E-08  ( ******* %)
accumulated results B  2          = 0.3107E-06  +/-  0.1004E-08  (   0.323 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                       1                                           2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   208534     9508  0.1677E-06  0.1358E-06  0.4345E+00
channel    2 :     1 T   491945    22710  0.3965E-06  0.1049E-06  0.6399E-01
channel    3 :     2 T   206009    10065  0.1657E-06  0.1353E-06  0.4371E+00
channel    4 :     2 T   493195    23253  0.3999E-06  0.1052E-06  0.6599E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1297444257706287E-006  +/-   2.1277632384231060E-009
 Final result:   4.8129557859819828E-007  +/-   2.2964635591326402E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    188438
   Stability unknown:                                          0
   Stable PS point:                                       188438
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 188438
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       188438
 counters for the granny resonances
 ntot                0
 Time spent in Born :    3.19803452    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.4544868    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    14.4687805    
 Time spent in Integrated_CT :    23.0184326    
 Time spent in Virtuals :    398.384857    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    26.2993774    
 Time spent in N1body_prefactor :    1.37422001    
 Time spent in Adding_alphas_pdf :    12.7719107    
 Time spent in Reweight_scale :    59.1755333    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    30.5838165    
 Time spent in Applying_cuts :    8.84457016    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    124.968338    
 Time spent in Other_tasks :    44.0403442    
 Time spent in Total :    759.582642    
Time in seconds: 807



LOG file for integration channel /P0_aa_emep/all_G1_13, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28408
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1485321
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6843003388403058E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          13
 Weight multiplier:   5.0000000000000003E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1485321           1
 imode is           -1
channel    1 :     1 F        0     9508  0.3350E-05  0.0000E+00  0.4234E+00
channel    2 :     1 F        0    22710  0.7934E-05  0.0000E+00  0.7099E-01
channel    3 :     2 F        0    10065  0.3329E-05  0.0000E+00  0.4705E+00
channel    4 :     2 F        0    23253  0.7918E-05  0.0000E+00  0.6557E-01
 ------- iteration           1
 Update # PS points (even_rn):      1485321  -->      1399680
Using random seed offsets:     0 ,      7 ,  41041
  with seed                   49
 Ranmar initialization seeds         124       20390
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.364475D+04 0.364475D+04  1.00
 muF1, muF1_reference: 0.364475D+04 0.364475D+04  1.00
 muF2, muF2_reference: 0.364475D+04 0.364475D+04  1.00
 QES,  QES_reference:  0.364475D+04 0.364475D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.6058089474970503E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 4: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 6: keeping split order            1
 REAL 8: keeping split order            1
 REAL 2: keeping split order            1
 REAL 9: keeping split order            1
 REAL 5: keeping split order            1
 REAL 3: keeping split order            1
 REAL 7: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.3120010581750786E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3718884125360686E-004           OLP:   -2.3718884125360724E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.9838936591339800E-004           OLP:    6.9838936591339843E-004
  FINITE:
           OLP:   -4.3433973052501938E-003
           BORN:    9.8737671602066271E-002
  MOMENTA (Exyzm): 
           1   2773.4885664916728        0.0000000000000000        0.0000000000000000        2773.4885664916728        0.0000000000000000     
           2   2773.4885664916728       -0.0000000000000000       -0.0000000000000000       -2773.4885664916728        0.0000000000000000     
           3   2773.4885664916728       -2017.8754700622187       -191.33982462479926       -1893.0944211247800        0.0000000000000000     
           4   2773.4885664916728        2017.8754700622187        191.33982462479926        1893.0944211247800        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3718884125360686E-004           OLP:   -2.3718884125360724E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.9838936591339800E-004           OLP:    6.9838936591339843E-004
ABS integral  = 0.1131E-05  +/-  0.2039E-08  (   0.180 %)
Integral      = 0.4836E-06  +/-  0.2215E-08  (   0.458 %)
Virtual       = -.8467E-09  +/-  0.1126E-08  ( 132.949 %)
Virtual ratio = -.8780E-01  +/-  0.5827E-03  (   0.664 %)
ABS virtual   = 0.2710E-06  +/-  0.1102E-08  (   0.407 %)
Born          = 0.3102E-06  +/-  0.9984E-09  (   0.322 %)
V  2          = -.8467E-09  +/-  0.1126E-08  ( 132.949 %)
B  2          = 0.3102E-06  +/-  0.9984E-09  (   0.322 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1131E-05  +/-  0.2039E-08  (   0.180 %)
accumulated results Integral      = 0.4836E-06  +/-  0.2215E-08  (   0.458 %)
accumulated results Virtual       = -.8467E-09  +/-  0.1126E-08  ( 132.949 %)
accumulated results Virtual ratio = -.8780E-01  +/-  0.5827E-03  (   0.664 %)
accumulated results ABS virtual   = 0.2710E-06  +/-  0.1102E-08  (   0.407 %)
accumulated results Born          = 0.3102E-06  +/-  0.9984E-09  (   0.322 %)
accumulated results V  2          = -.8467E-09  +/-  0.1126E-08  ( 132.949 %)
accumulated results B  2          = 0.3102E-06  +/-  0.9984E-09  (   0.322 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                       1                                           2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   207812     9508  0.1683E-06  0.1361E-06  0.4265E+00
channel    2 :     1 T   493147    22710  0.3998E-06  0.1051E-06  0.7220E-01
channel    3 :     2 T   206203    10065  0.1655E-06  0.1353E-06  0.4523E+00
channel    4 :     2 T   492518    23253  0.3977E-06  0.1070E-06  0.6924E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1312525604107626E-006  +/-   2.0394687408037689E-009
 Final result:   4.8360089612792144E-007  +/-   2.2150955284540405E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    188107
   Stability unknown:                                          0
   Stable PS point:                                       188107
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 188107
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       188107
 counters for the granny resonances
 ntot                0
 Time spent in Born :    3.52774715    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.1785946    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    14.4247026    
 Time spent in Integrated_CT :    27.2665405    
 Time spent in Virtuals :    389.531006    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    30.0572739    
 Time spent in N1body_prefactor :    1.37410486    
 Time spent in Adding_alphas_pdf :    12.4463110    
 Time spent in Reweight_scale :    58.2656021    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    30.4308014    
 Time spent in Applying_cuts :    8.74172020    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    126.666451    
 Time spent in Other_tasks :    43.4528198    
 Time spent in Total :    758.363647    
Time in seconds: 808



LOG file for integration channel /P0_aa_emep/all_G1_14, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28409
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1485321
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6843003388403058E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          14
 Weight multiplier:   5.0000000000000003E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1485321           1
 imode is           -1
channel    1 :     1 F        0     9508  0.3350E-05  0.0000E+00  0.4234E+00
channel    2 :     1 F        0    22710  0.7934E-05  0.0000E+00  0.7099E-01
channel    3 :     2 F        0    10065  0.3329E-05  0.0000E+00  0.4705E+00
channel    4 :     2 F        0    23253  0.7918E-05  0.0000E+00  0.6557E-01
 ------- iteration           1
 Update # PS points (even_rn):      1485321  -->      1399680
Using random seed offsets:     0 ,      7 ,  44198
  with seed                   49
 Ranmar initialization seeds         124       23547
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.404116D+04 0.404116D+04  1.00
 muF1, muF1_reference: 0.404116D+04 0.404116D+04  1.00
 muF2, muF2_reference: 0.404116D+04 0.404116D+04  1.00
 QES,  QES_reference:  0.404116D+04 0.404116D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5313970764488050E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 7: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 8: keeping split order            1
 REAL 4: keeping split order            1
 REAL 6: keeping split order            1
 REAL 5: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 F
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 F
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.2857288593539765E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.7142324483303408E-004           OLP:   -2.7142324483303548E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.9919066534171160E-004           OLP:    7.9919066534170683E-004
  FINITE:
           OLP:   -4.8577958124017811E-003
           BORN:   0.11298887026829647     
  MOMENTA (Exyzm): 
           1   2884.4740969717459        0.0000000000000000        0.0000000000000000        2884.4740969717459        0.0000000000000000     
           2   2884.4740969717459       -0.0000000000000000       -0.0000000000000000       -2884.4740969717459        0.0000000000000000     
           3   2884.4740969717459       -1645.8858642026005       -1144.4417520579179       -2074.0066572375390        0.0000000000000000     
           4   2884.4740969717459        1645.8858642026005        1144.4417520579179        2074.0066572375390        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.7142324483303408E-004           OLP:   -2.7142324483303548E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.9919066534171160E-004           OLP:    7.9919066534170683E-004
 REAL 9: keeping split order            1
ABS integral  = 0.1134E-05  +/-  0.2177E-08  (   0.192 %)
Integral      = 0.4869E-06  +/-  0.2343E-08  (   0.481 %)
Virtual       = 0.1261E-08  +/-  0.1113E-08  (  88.310 %)
Virtual ratio = -.8660E-01  +/-  0.5813E-03  (   0.671 %)
ABS virtual   = 0.2689E-06  +/-  0.1090E-08  (   0.405 %)
Born          = 0.3105E-06  +/-  0.1008E-08  (   0.325 %)
V  2          = 0.1261E-08  +/-  0.1113E-08  (  88.310 %)
B  2          = 0.3105E-06  +/-  0.1008E-08  (   0.325 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1134E-05  +/-  0.2177E-08  (   0.192 %)
accumulated results Integral      = 0.4869E-06  +/-  0.2343E-08  (   0.481 %)
accumulated results Virtual       = 0.1261E-08  +/-  0.1113E-08  (  88.310 %)
accumulated results Virtual ratio = -.8660E-01  +/-  0.5813E-03  (   0.671 %)
accumulated results ABS virtual   = 0.2689E-06  +/-  0.1090E-08  (   0.405 %)
accumulated results Born          = 0.3105E-06  +/-  0.1008E-08  (   0.325 %)
accumulated results V  2          = 0.1261E-08  +/-  0.1113E-08  (  88.310 %)
accumulated results B  2          = 0.3105E-06  +/-  0.1008E-08  (   0.325 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                       1                                           2
  2:  0  1        2     3                               4  5        6     7                               8
channel    1 :     1 T   207035     9508  0.1681E-06  0.1361E-06  0.4249E+00
channel    2 :     1 T   492893    22710  0.3973E-06  0.1079E-06  0.6659E-01
channel    3 :     2 T   207196    10065  0.1656E-06  0.1345E-06  0.4418E+00
channel    4 :     2 T   492555    23253  0.4031E-06  0.1084E-06  0.6366E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1340664002717425E-006  +/-   2.1772672286469419E-009
 Final result:   4.8690317298010375E-007  +/-   2.3430690119740547E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    188078
   Stability unknown:                                          0
   Stable PS point:                                       188078
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 188078
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       188078
 counters for the granny resonances
 ntot                0
 Time spent in Born :    2.77076840    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.4276447    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    14.3072891    
 Time spent in Integrated_CT :    18.0676270    
 Time spent in Virtuals :    393.689972    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    21.4408340    
 Time spent in N1body_prefactor :    1.40668571    
 Time spent in Adding_alphas_pdf :    12.7039986    
 Time spent in Reweight_scale :    59.3175468    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    30.4999733    
 Time spent in Applying_cuts :    8.79645920    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    121.143623    
 Time spent in Other_tasks :    43.6210327    
 Time spent in Total :    740.193481    
Time in seconds: 752



LOG file for integration channel /P0_aa_emep/all_G1_15, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28386
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1485321
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6843003388403058E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          15
 Weight multiplier:   5.0000000000000003E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1485321           1
 imode is           -1
channel    1 :     1 F        0     9508  0.3350E-05  0.0000E+00  0.4234E+00
channel    2 :     1 F        0    22710  0.7934E-05  0.0000E+00  0.7099E-01
channel    3 :     2 F        0    10065  0.3329E-05  0.0000E+00  0.4705E+00
channel    4 :     2 F        0    23253  0.7918E-05  0.0000E+00  0.6557E-01
 ------- iteration           1
 Update # PS points (even_rn):      1485321  -->      1399680
Using random seed offsets:     0 ,      7 ,  47355
  with seed                   49
 Ranmar initialization seeds         124       26704
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.362058D+04 0.362058D+04  1.00
 muF1, muF1_reference: 0.362058D+04 0.362058D+04  1.00
 muF2, muF2_reference: 0.362058D+04 0.362058D+04  1.00
 QES,  QES_reference:  0.362058D+04 0.362058D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.6106552449375614E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 7: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 4: keeping split order            1
 REAL 6: keeping split order            1
 REAL 8: keeping split order            1
 REAL 2: keeping split order            1
 REAL 5: keeping split order            1
 REAL 3: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 REAL 9: keeping split order            1
 alpha_s value used for the virtuals is (for the first PS point):    7.2810215816561816E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.7087691377180255E-004           OLP:   -2.7087691377180277E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.9758202388364118E-004           OLP:    7.9758202388364096E-004
  FINITE:
           OLP:   -4.9381949668960258E-003
           BORN:   0.11276144196001359     
  MOMENTA (Exyzm): 
           1   2904.9106561853355        0.0000000000000000        0.0000000000000000        2904.9106561853355        0.0000000000000000     
           2   2904.9106561853355       -0.0000000000000000       -0.0000000000000000       -2904.9106561853355        0.0000000000000000     
           3   2904.9106561853355       -1983.4407303957400       -384.74535936915834       -2087.2086138836785        0.0000000000000000     
           4   2904.9106561853355        1983.4407303957400        384.74535936915834        2087.2086138836785        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.7087691377180255E-004           OLP:   -2.7087691377180277E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.9758202388364118E-004           OLP:    7.9758202388364096E-004
ABS integral  = 0.1129E-05  +/-  0.2068E-08  (   0.183 %)
Integral      = 0.4855E-06  +/-  0.2240E-08  (   0.461 %)
Virtual       = -.4258E-09  +/-  0.1105E-08  ( 259.484 %)
Virtual ratio = -.8814E-01  +/-  0.5814E-03  (   0.660 %)
ABS virtual   = 0.2685E-06  +/-  0.1081E-08  (   0.403 %)
Born          = 0.3105E-06  +/-  0.9962E-09  (   0.321 %)
V  2          = -.4258E-09  +/-  0.1105E-08  ( 259.484 %)
B  2          = 0.3105E-06  +/-  0.9962E-09  (   0.321 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1129E-05  +/-  0.2068E-08  (   0.183 %)
accumulated results Integral      = 0.4855E-06  +/-  0.2240E-08  (   0.461 %)
accumulated results Virtual       = -.4258E-09  +/-  0.1105E-08  ( 259.484 %)
accumulated results Virtual ratio = -.8814E-01  +/-  0.5814E-03  (   0.660 %)
accumulated results ABS virtual   = 0.2685E-06  +/-  0.1081E-08  (   0.403 %)
accumulated results Born          = 0.3105E-06  +/-  0.9962E-09  (   0.321 %)
accumulated results V  2          = -.4258E-09  +/-  0.1105E-08  ( 259.484 %)
accumulated results B  2          = 0.3105E-06  +/-  0.9962E-09  (   0.321 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                       1                                           2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   207892     9508  0.1670E-06  0.1354E-06  0.4247E+00
channel    2 :     1 T   492630    22710  0.3974E-06  0.1062E-06  0.6671E-01
channel    3 :     2 T   207120    10065  0.1666E-06  0.1360E-06  0.4457E+00
channel    4 :     2 T   492037    23253  0.3982E-06  0.1079E-06  0.6929E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1292693257396850E-006  +/-   2.0680281000260394E-009
 Final result:   4.8554667512896073E-007  +/-   2.2404029613139609E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    188506
   Stability unknown:                                          0
   Stable PS point:                                       188506
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 188506
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       188506
 counters for the granny resonances
 ntot                0
 Time spent in Born :    3.51273155    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.4939880    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    14.4892578    
 Time spent in Integrated_CT :    27.2955627    
 Time spent in Virtuals :    393.882446    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    30.6322269    
 Time spent in N1body_prefactor :    1.37905049    
 Time spent in Adding_alphas_pdf :    12.6308994    
 Time spent in Reweight_scale :    58.7001572    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    30.5866909    
 Time spent in Applying_cuts :    8.72313881    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    127.866112    
 Time spent in Other_tasks :    43.4140625    
 Time spent in Total :    765.606262    
Time in seconds: 807



LOG file for integration channel /P0_aa_emep/all_G1_16, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28400
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1485321
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6843003388403058E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          16
 Weight multiplier:   5.0000000000000003E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1485321           1
 imode is           -1
channel    1 :     1 F        0     9508  0.3350E-05  0.0000E+00  0.4234E+00
channel    2 :     1 F        0    22710  0.7934E-05  0.0000E+00  0.7099E-01
channel    3 :     2 F        0    10065  0.3329E-05  0.0000E+00  0.4705E+00
channel    4 :     2 F        0    23253  0.7918E-05  0.0000E+00  0.6557E-01
 ------- iteration           1
 Update # PS points (even_rn):      1485321  -->      1399680
Using random seed offsets:     0 ,      7 ,  50512
  with seed                   49
 Ranmar initialization seeds         124       29861
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.280620D+04 0.280620D+04  1.00
 muF1, muF1_reference: 0.280620D+04 0.280620D+04  1.00
 muF2, muF2_reference: 0.280620D+04 0.280620D+04  1.00
 QES,  QES_reference:  0.280620D+04 0.280620D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.8011712083444901E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 3: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 2: keeping split order            1
 REAL 8: keeping split order            1
 REAL 5: keeping split order            1
 REAL 4: keeping split order            1
 REAL 6: keeping split order            1
 REAL 7: keeping split order            1
 REAL 1: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 F
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 F
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.2765701034423647E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.4110698736870228E-004           OLP:   -2.4110698736870209E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.0992612947451232E-004           OLP:    7.0992612947451124E-004
  FINITE:
           OLP:   -4.9034138500622833E-003
           BORN:   0.10036872904286534     
  MOMENTA (Exyzm): 
           1   2924.3942721527287        0.0000000000000000        0.0000000000000000        2924.3942721527287        0.0000000000000000     
           2   2924.3942721527287       -0.0000000000000000       -0.0000000000000000       -2924.3942721527287        0.0000000000000000     
           3   2924.3942721527287       -2067.3441617646058       -489.00017529385218       -2009.7384915406456        0.0000000000000000     
           4   2924.3942721527287        2067.3441617646058        489.00017529385218        2009.7384915406456        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.4110698736870228E-004           OLP:   -2.4110698736870209E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.0992612947451232E-004           OLP:    7.0992612947451124E-004
 REAL 9: keeping split order            1
ABS integral  = 0.1128E-05  +/-  0.2095E-08  (   0.186 %)
Integral      = 0.4825E-06  +/-  0.2265E-08  (   0.469 %)
Virtual       = 0.4386E-09  +/-  0.1106E-08  ( 252.229 %)
Virtual ratio = -.8725E-01  +/-  0.5816E-03  (   0.667 %)
ABS virtual   = 0.2697E-06  +/-  0.1083E-08  (   0.401 %)
Born          = 0.3111E-06  +/-  0.1001E-08  (   0.322 %)
V  2          = 0.4386E-09  +/-  0.1106E-08  ( 252.229 %)
B  2          = 0.3111E-06  +/-  0.1001E-08  (   0.322 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1128E-05  +/-  0.2095E-08  (   0.186 %)
accumulated results Integral      = 0.4825E-06  +/-  0.2265E-08  (   0.469 %)
accumulated results Virtual       = 0.4386E-09  +/-  0.1106E-08  ( 252.229 %)
accumulated results Virtual ratio = -.8725E-01  +/-  0.5816E-03  (   0.667 %)
accumulated results ABS virtual   = 0.2697E-06  +/-  0.1083E-08  (   0.401 %)
accumulated results Born          = 0.3111E-06  +/-  0.1001E-08  (   0.322 %)
accumulated results V  2          = 0.4386E-09  +/-  0.1106E-08  ( 252.229 %)
accumulated results B  2          = 0.3111E-06  +/-  0.1001E-08  (   0.322 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                       1                                           2
  2:  0  1        2     3                               4  5        6     7                               8
channel    1 :     1 T   207790     9508  0.1677E-06  0.1348E-06  0.4226E+00
channel    2 :     1 T   492680    22710  0.3962E-06  0.1079E-06  0.6985E-01
channel    3 :     2 T   207062    10065  0.1659E-06  0.1344E-06  0.3853E+00
channel    4 :     2 T   492143    23253  0.3980E-06  0.1055E-06  0.6790E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1278595614228035E-006  +/-   2.0946125805148848E-009
 Final result:   4.8252797502437176E-007  +/-   2.2649241779389857E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    188450
   Stability unknown:                                          0
   Stable PS point:                                       188450
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 188450
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       188450
 counters for the granny resonances
 ntot                0
 Time spent in Born :    3.17933226    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.4977999    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    14.4816399    
 Time spent in Integrated_CT :    22.9263611    
 Time spent in Virtuals :    394.630066    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    26.0877285    
 Time spent in N1body_prefactor :    1.39551365    
 Time spent in Adding_alphas_pdf :    12.7304125    
 Time spent in Reweight_scale :    59.4537926    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    30.5271187    
 Time spent in Applying_cuts :    8.80769348    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    124.934143    
 Time spent in Other_tasks :    44.2493896    
 Time spent in Total :    755.900940    
Time in seconds: 807



LOG file for integration channel /P0_aa_emep/all_G1_17, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28405
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1485321
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6843003388403058E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          17
 Weight multiplier:   5.0000000000000003E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1485321           1
 imode is           -1
channel    1 :     1 F        0     9508  0.3350E-05  0.0000E+00  0.4234E+00
channel    2 :     1 F        0    22710  0.7934E-05  0.0000E+00  0.7099E-01
channel    3 :     2 F        0    10065  0.3329E-05  0.0000E+00  0.4705E+00
channel    4 :     2 F        0    23253  0.7918E-05  0.0000E+00  0.6557E-01
 ------- iteration           1
 Update # PS points (even_rn):      1485321  -->      1399680
Using random seed offsets:     0 ,      7 ,  53669
  with seed                   49
 Ranmar initialization seeds         124        2937
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.379107D+04 0.379107D+04  1.00
 muF1, muF1_reference: 0.379107D+04 0.379107D+04  1.00
 muF2, muF2_reference: 0.379107D+04 0.379107D+04  1.00
 QES,  QES_reference:  0.379107D+04 0.379107D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5772673736339266E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 8: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 4: keeping split order            1
 REAL 5: keeping split order            1
 REAL 3: keeping split order            1
 REAL 2: keeping split order            1
 REAL 6: keeping split order            1
 REAL 7: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.2900466331264513E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 
 ===============================================================

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3566634253825944E-004           OLP:   -2.3566634253825963E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.9390645302931935E-004           OLP:    6.9390645302931718E-004
  FINITE:
           OLP:   -4.6697648086323163E-003
           BORN:    9.8103881338679436E-002
  MOMENTA (Exyzm): 
           1   2865.8778839873466        0.0000000000000000        0.0000000000000000        2865.8778839873466        0.0000000000000000     
           2   2865.8778839873466       -0.0000000000000000       -0.0000000000000000       -2865.8778839873466        0.0000000000000000     
           3   2865.8778839873466       -1649.5507219715475       -1298.6248487431335       -1950.8490366498918        0.0000000000000000     
           4   2865.8778839873466        1649.5507219715475        1298.6248487431335        1950.8490366498918        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.3566634253825944E-004           OLP:   -2.3566634253825963E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    6.9390645302931935E-004           OLP:    6.9390645302931718E-004
 REAL 1: keeping split order            1
 REAL 9: keeping split order            1
ABS integral  = 0.1130E-05  +/-  0.2066E-08  (   0.183 %)
Integral      = 0.4879E-06  +/-  0.2238E-08  (   0.459 %)
Virtual       = 0.1420E-08  +/-  0.1110E-08  (  78.178 %)
Virtual ratio = -.8688E-01  +/-  0.5812E-03  (   0.669 %)
ABS virtual   = 0.2699E-06  +/-  0.1086E-08  (   0.402 %)
Born          = 0.3111E-06  +/-  0.9939E-09  (   0.320 %)
V  2          = 0.1420E-08  +/-  0.1110E-08  (  78.178 %)
B  2          = 0.3111E-06  +/-  0.9939E-09  (   0.320 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1130E-05  +/-  0.2066E-08  (   0.183 %)
accumulated results Integral      = 0.4879E-06  +/-  0.2238E-08  (   0.459 %)
accumulated results Virtual       = 0.1420E-08  +/-  0.1110E-08  (  78.178 %)
accumulated results Virtual ratio = -.8688E-01  +/-  0.5812E-03  (   0.669 %)
accumulated results ABS virtual   = 0.2699E-06  +/-  0.1086E-08  (   0.402 %)
accumulated results Born          = 0.3111E-06  +/-  0.9939E-09  (   0.320 %)
accumulated results V  2          = 0.1420E-08  +/-  0.1110E-08  (  78.178 %)
accumulated results B  2          = 0.3111E-06  +/-  0.9939E-09  (   0.320 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                       1                                           2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   208010     9508  0.1679E-06  0.1354E-06  0.4033E+00
channel    2 :     1 T   492361    22710  0.3978E-06  0.1091E-06  0.6922E-01
channel    3 :     2 T   207539    10065  0.1659E-06  0.1356E-06  0.4595E+00
channel    4 :     2 T   491775    23253  0.3984E-06  0.1078E-06  0.6846E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1300780724981465E-006  +/-   2.0655436933181788E-009
 Final result:   4.8792136202405712E-007  +/-   2.2380325838847879E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    188680
   Stability unknown:                                          0
   Stable PS point:                                       188680
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 188680
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       188680
 counters for the granny resonances
 ntot                0
 Time spent in Born :    3.22697592    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.4461327    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    14.7889662    
 Time spent in Integrated_CT :    23.2187805    
 Time spent in Virtuals :    395.793945    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    26.4205990    
 Time spent in N1body_prefactor :    1.38197231    
 Time spent in Adding_alphas_pdf :    12.9050369    
 Time spent in Reweight_scale :    59.5466461    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    32.2842789    
 Time spent in Applying_cuts :    8.96381187    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    126.143730    
 Time spent in Other_tasks :    44.2410889    
 Time spent in Total :    761.361938    
Time in seconds: 808



LOG file for integration channel /P0_aa_emep/all_G1_18, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28404
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1485321
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6843003388403058E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          18
 Weight multiplier:   5.0000000000000003E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1485321           1
 imode is           -1
channel    1 :     1 F        0     9508  0.3350E-05  0.0000E+00  0.4234E+00
channel    2 :     1 F        0    22710  0.7934E-05  0.0000E+00  0.7099E-01
channel    3 :     2 F        0    10065  0.3329E-05  0.0000E+00  0.4705E+00
channel    4 :     2 F        0    23253  0.7918E-05  0.0000E+00  0.6557E-01
 ------- iteration           1
 Update # PS points (even_rn):      1485321  -->      1399680
Using random seed offsets:     0 ,      7 ,  56826
  with seed                   49
 Ranmar initialization seeds         124        6094
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.410150D+04 0.410150D+04  1.00
 muF1, muF1_reference: 0.410150D+04 0.410150D+04  1.00
 muF2, muF2_reference: 0.410150D+04 0.410150D+04  1.00
 QES,  QES_reference:  0.410150D+04 0.410150D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5208331409516493E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 2: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 8: keeping split order            1
 REAL 4: keeping split order            1
 REAL 6: keeping split order            1
 REAL 1: keeping split order            1
 REAL 3: keeping split order            1
 REAL 7: keeping split order            1
 REAL 5: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.2807541254299696E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.6447897905040478E-004           OLP:   -2.6447897905040478E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.7874366053730317E-004           OLP:    7.7874366053730295E-004
  FINITE:
           OLP:   -4.9254860905738581E-003
           BORN:   0.11009809079174598     
  MOMENTA (Exyzm): 
           1   2906.0769418521263        0.0000000000000000        0.0000000000000000        2906.0769418521263        0.0000000000000000     
           2   2906.0769418521263       -0.0000000000000000       -0.0000000000000000       -2906.0769418521263        0.0000000000000000     
           3   2906.0769418521263        1790.0434972572962        977.53613688355915        2070.1329838873253        0.0000000000000000     
           4   2906.0769418521263       -1790.0434972572962       -977.53613688355915       -2070.1329838873253        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.6447897905040478E-004           OLP:   -2.6447897905040478E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.7874366053730317E-004           OLP:    7.7874366053730295E-004
 REAL 9: keeping split order            1
ABS integral  = 0.1131E-05  +/-  0.2005E-08  (   0.177 %)
Integral      = 0.4858E-06  +/-  0.2182E-08  (   0.449 %)
Virtual       = -.8807E-10  +/-  0.1106E-08  ( ******* %)
Virtual ratio = -.8729E-01  +/-  0.5797E-03  (   0.664 %)
ABS virtual   = 0.2701E-06  +/-  0.1082E-08  (   0.401 %)
Born          = 0.3112E-06  +/-  0.9914E-09  (   0.319 %)
V  2          = -.8807E-10  +/-  0.1106E-08  ( ******* %)
B  2          = 0.3112E-06  +/-  0.9914E-09  (   0.319 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1131E-05  +/-  0.2005E-08  (   0.177 %)
accumulated results Integral      = 0.4858E-06  +/-  0.2182E-08  (   0.449 %)
accumulated results Virtual       = -.8807E-10  +/-  0.1106E-08  ( ******* %)
accumulated results Virtual ratio = -.8729E-01  +/-  0.5797E-03  (   0.664 %)
accumulated results ABS virtual   = 0.2701E-06  +/-  0.1082E-08  (   0.401 %)
accumulated results Born          = 0.3112E-06  +/-  0.9914E-09  (   0.319 %)
accumulated results V  2          = -.8807E-10  +/-  0.1106E-08  ( ******* %)
accumulated results B  2          = 0.3112E-06  +/-  0.9914E-09  (   0.319 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                       1                                           2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   208084     9508  0.1679E-06  0.1353E-06  0.4265E+00
channel    2 :     1 T   492626    22710  0.3971E-06  0.1056E-06  0.7121E-01
channel    3 :     2 T   206752    10065  0.1658E-06  0.1361E-06  0.4528E+00
channel    4 :     2 T   492220    23253  0.3997E-06  0.1088E-06  0.6949E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1305087935496056E-006  +/-   2.0046420916661310E-009
 Final result:   4.8576355136693382E-007  +/-   2.1824540629219770E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    188705
   Stability unknown:                                          0
   Stable PS point:                                       188705
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 188705
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       188705
 counters for the granny resonances
 ntot                0
 Time spent in Born :    3.28854275    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.4261417    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    14.6518917    
 Time spent in Integrated_CT :    24.1271667    
 Time spent in Virtuals :    396.423187    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    27.2961884    
 Time spent in N1body_prefactor :    1.36959171    
 Time spent in Adding_alphas_pdf :    12.9069347    
 Time spent in Reweight_scale :    59.4980850    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    30.9362144    
 Time spent in Applying_cuts :    8.75573921    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    126.142357    
 Time spent in Other_tasks :    43.6787109    
 Time spent in Total :    761.500732    
Time in seconds: 807



LOG file for integration channel /P0_aa_emep/all_G1_19, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28387
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1485321
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6843003388403058E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          19
 Weight multiplier:   5.0000000000000003E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1485321           1
 imode is           -1
channel    1 :     1 F        0     9508  0.3350E-05  0.0000E+00  0.4234E+00
channel    2 :     1 F        0    22710  0.7934E-05  0.0000E+00  0.7099E-01
channel    3 :     2 F        0    10065  0.3329E-05  0.0000E+00  0.4705E+00
channel    4 :     2 F        0    23253  0.7918E-05  0.0000E+00  0.6557E-01
 ------- iteration           1
 Update # PS points (even_rn):      1485321  -->      1399680
Using random seed offsets:     0 ,      7 ,  59983
  with seed                   49
 Ranmar initialization seeds         124        9251
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.405799D+04 0.405799D+04  1.00
 muF1, muF1_reference: 0.405799D+04 0.405799D+04  1.00
 muF2, muF2_reference: 0.405799D+04 0.405799D+04  1.00
 QES,  QES_reference:  0.405799D+04 0.405799D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5284316720554065E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 4: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 8: keeping split order            1
 REAL 6: keeping split order            1
 REAL 1: keeping split order            1
 REAL 7: keeping split order            1
 REAL 2: keeping split order            1
 REAL 5: keeping split order            1
 REAL 3: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 F
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 F
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.2961147731364695E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.5812102573729353E-004           OLP:   -2.5812102573729396E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.6002302022647552E-004           OLP:    7.6002302022647379E-004
  FINITE:
           OLP:   -4.6515069226287413E-003
           BORN:   0.10745138320224337     
  MOMENTA (Exyzm): 
           1   2839.9821566275896        0.0000000000000000        0.0000000000000000        2839.9821566275896        0.0000000000000000     
           2   2839.9821566275896       -0.0000000000000000       -0.0000000000000000       -2839.9821566275896        0.0000000000000000     
           3   2839.9821566275896       -1343.3563328976807       -1497.1538602175917       -2004.8498027688645        0.0000000000000000     
           4   2839.9821566275896        1343.3563328976807        1497.1538602175917        2004.8498027688645        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.5812102573729353E-004           OLP:   -2.5812102573729396E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.6002302022647552E-004           OLP:    7.6002302022647379E-004
 REAL 9: keeping split order            1
ABS integral  = 0.1132E-05  +/-  0.2107E-08  (   0.186 %)
Integral      = 0.4847E-06  +/-  0.2277E-08  (   0.470 %)
Virtual       = 0.1102E-08  +/-  0.1099E-08  (  99.717 %)
Virtual ratio = -.8719E-01  +/-  0.5816E-03  (   0.667 %)
ABS virtual   = 0.2699E-06  +/-  0.1075E-08  (   0.398 %)
Born          = 0.3110E-06  +/-  0.9965E-09  (   0.320 %)
V  2          = 0.1102E-08  +/-  0.1099E-08  (  99.717 %)
B  2          = 0.3110E-06  +/-  0.9965E-09  (   0.320 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1132E-05  +/-  0.2107E-08  (   0.186 %)
accumulated results Integral      = 0.4847E-06  +/-  0.2277E-08  (   0.470 %)
accumulated results Virtual       = 0.1102E-08  +/-  0.1099E-08  (  99.717 %)
accumulated results Virtual ratio = -.8719E-01  +/-  0.5816E-03  (   0.667 %)
accumulated results ABS virtual   = 0.2699E-06  +/-  0.1075E-08  (   0.398 %)
accumulated results Born          = 0.3110E-06  +/-  0.9965E-09  (   0.320 %)
accumulated results V  2          = 0.1102E-08  +/-  0.1099E-08  (  99.717 %)
accumulated results B  2          = 0.3110E-06  +/-  0.9965E-09  (   0.320 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                       1                                           2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   207328     9508  0.1671E-06  0.1346E-06  0.3927E+00
channel    2 :     1 T   493417    22710  0.3988E-06  0.1061E-06  0.6829E-01
channel    3 :     2 T   207200    10065  0.1660E-06  0.1360E-06  0.4596E+00
channel    4 :     2 T   491734    23253  0.4001E-06  0.1080E-06  0.6549E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1319243288291608E-006  +/-   2.1069161567050735E-009
 Final result:   4.8474622125351034E-007  +/-   2.2774119017120845E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    188130
   Stability unknown:                                          0
   Stable PS point:                                       188130
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 188130
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       188130
 counters for the granny resonances
 ntot                0
 Time spent in Born :    3.17402458    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.4827919    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    14.5386944    
 Time spent in Integrated_CT :    22.9423523    
 Time spent in Virtuals :    394.400757    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    26.0276031    
 Time spent in N1body_prefactor :    1.37019145    
 Time spent in Adding_alphas_pdf :    12.7984858    
 Time spent in Reweight_scale :    60.0515823    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    30.9540215    
 Time spent in Applying_cuts :    8.81440353    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    126.363220    
 Time spent in Other_tasks :    43.8402710    
 Time spent in Total :    757.758423    
Time in seconds: 807



LOG file for integration channel /P0_aa_emep/all_G1_20, 2
==== LHAPDF6 USING DEFAULT-TYPE LHAGLUE INTERFACE ====
LHAPDF 6.2.3 loading /home/marcozaro/LHAPDF6/share/LHAPDF/NNPDF31_nlo_as_0118_luxqed/NNPDF31_nlo_as_0118_luxqed_0000.dat
NNPDF31_nlo_as_0118_luxqed PDF set, member #0, version 2; LHAPDF ID = 324900
       28402
 ===============================================================
 INFO: MadFKS read these parameters from FKS_params.dat                                                  
 ===============================================================
  > IRPoleCheckThreshold      =    1.0000000000000001E-005
  > PrecisionVirtualAtRunTime =    1.0000000000000000E-003
  > SelectedContributionTypes = All
  > VetoedContributionTypes   = None
  > QCD_squared_selected      = All
  > QED_squared_selected      = All
  > SelectedCouplingOrders    = All
  > NHelForMCoverHels         =            4
  > VirtualFraction           =    1.0000000000000000     
  > MinVirtualFraction        =    5.0000000000000001E-003
  > SeparateFlavourConfigs    =  F
  > UsePolyVirtual            =  F
 ===============================================================
 SPLIT TYPE USED: F T
 A PDF is used, so alpha_s(MZ) is going to be modified
 Old value of alpha_s from param_card:   0.11799999999999999     
 New value of alpha_s from PDF lhapdf :  0.11800209145668880     
WARNING: the value of maxjetflavorspecified in the run_card (  4) is inconsistent with the number of light flavours inthe model. Hence it will be set to:  5
 *****************************************************
 *               MadGraph/MadEvent                   *
 *        --------------------------------           *
 *          http://madgraph.hep.uiuc.edu             *
 *          http://madgraph.phys.ucl.ac.be           *
 *          http://madgraph.roma2.infn.it            *
 *        --------------------------------           *
 *                                                   *
 *          PARAMETER AND COUPLING VALUES            *
 *                                                   *
 *****************************************************

  External Params
  ---------------------------------
  
 MU_R =    1000.0000000000000     
 mdl_MT =    173.30000000000001     
 mdl_MZ =    91.188000000000002     
 mdl_MW =    80.418999999999997     
 mdl_MH =    125.00000000000000     
 mdl_Gf =    1.1663900000000000E-005
 aS =   0.11799999999999999     
 mdl_ntadpole =    1.0000000000000000     
 mdl_ymt =    173.30000000000001     
 mdl_WT =    0.0000000000000000     
 mdl_WZ =    0.0000000000000000     
 mdl_WW =    0.0000000000000000     
 mdl_WH =    0.0000000000000000     
  Internal Params
  ---------------------------------
  
 mdl_GfRedefinitionChoice =    1.0000000000000000     
 mdl_SCKM22__exp__2 =    1.0000000000000000     
 mdl_MB__exp__4 =    0.0000000000000000     
 mdl_vep =    0.0000000000000000     
 mdl_MU__exp__2 =    0.0000000000000000     
 mdl_SCKM22 =    1.0000000000000000     
 mdl_LogSwitch =    1.0000000000000000     
 mdl_yb =    0.0000000000000000     
 mdl_CKM11 =    1.0000000000000000     
 mdl_conjg__CKM22 =    1.0000000000000000     
 mdl_conjg__CKM11 =    1.0000000000000000     
 mdl_conjg__CKM33 =    1.0000000000000000     
 mdl_CKM22 =    1.0000000000000000     
 mdl_MB__exp__2 =    0.0000000000000000     
 mdl_epsUV =    1.0000000000000000     
 mdl_Ql__exp__2 =    1.0000000000000000     
 mdl_epsIR =    1.0000000000000000     
 mdl_SCKM33__exp__2 =    1.0000000000000000     
 mdl_MS__exp__2 =    0.0000000000000000     
 mdl_lhv =    1.0000000000000000     
 mdl_SCKM33 =    1.0000000000000000     
 mdl_Me__exp__2 =    0.0000000000000000     
 mdl_CKM33 =    1.0000000000000000     
 mdl_CMSParam =    0.0000000000000000     
 mdl_SCKM11 =    1.0000000000000000     
 mdl_Ql__exp__4 =    1.0000000000000000     
 mdl_MC__exp__2 =    0.0000000000000000     
 mdl_ep =    1.0000000000000000E-010
 mdl_Ncol =    3.0000000000000000     
 mdl_CA =    3.0000000000000000     
 mdl_TF =   0.50000000000000000     
 mdl_CF =    1.3333333333333333     
 mdl_MW__exp__2 =    6467.2155609999991     
 mdl_MZ__exp__2 =    8315.2513440000002     
 mdl_sw2 =   0.22224653309289089     
 mdl_complexi =                (0.0000000000000000,1.0000000000000000)
 mdl_cw =   0.88190332061236121     
 mdl_sqrt__sw2 =   0.47143030565810135     
 mdl_sw =   0.47143030565810135     
 mdl_MH__exp__2 =    15625.000000000000     
 mdl_sqrt__2 =    1.4142135623730951     
 mdl_I3d =  -0.50000000000000000     
 mdl_I3u =   0.50000000000000000     
 mdl_I3l =  -0.50000000000000000     
 mdl_I3v =   0.50000000000000000     
 mdl_Qd =  -0.33333333333333331     
 mdl_Qu =   0.66666666666666663     
 mdl_Ql =   -1.0000000000000000     
 mdl_Ncol__exp__2 =    9.0000000000000000     
 mdl_sw__exp__2 =   0.22224653309289086     
 mdl_MT__exp__2 =    30032.890000000003     
 mdl_cw__exp__2 =   0.77775346690710911     
 mdl_MT__exp__4 =    901974481.75210023     
 mdl_sw__exp__4 =    4.9393521471809435E-002
 mdl_MW__exp__4 =    41824877.112440534     
 mdl_MT__exp__3 =    5204699.8370000012     
 mdl_MH__exp__4 =    244140625.00000000     
 mdl_MZ__exp__4 =    69143404.913893804     
 mdl_MT__exp__6 =    27088900393267.840     
 mdl_MW__exp__6 =    270490496098.48813     
 mdl_MT__exp__8 =    8.1355796573196979E+017
 mdl_MW__exp__8 =    1749320345470752.0     
 mdl_MT__exp__10 =    2.4433496893452020E+022
 mdl_MW__exp__10 =    1.1313231759402340E+019
 mdl_MZ__exp__6 =    574944790638.99182     
 mdl_sw__exp__6 =    1.0977538904358909E-002
 mdl_sw__exp__3 =   0.10477375102743487     
 mdl_MZ__exp__3 =    758251.13955667207     
 mdl_cw__exp__4 =   0.60490045528602765     
 mdl_cw__exp__6 =   0.47046342623239684     
 mdl_MH__exp__6 =    3814697265625.0000     
 mdl_cw__exp__3 =   0.68590336508315575     
 mdl_sw__exp__8 =    2.4397199633860995E-003
 mdl_sw__exp__10 =    5.4221930358007518E-004
 mdl_Qd__exp__3 =   -3.7037037037037028E-002
 mdl_Qd__exp__2 =   0.11111111111111110     
 mdl_I3d__exp__2 =   0.25000000000000000     
 mdl_I3d__exp__3 =  -0.12500000000000000     
 mdl_Qu__exp__3 =   0.29629629629629622     
 mdl_Qu__exp__2 =   0.44444444444444442     
 mdl_I3u__exp__2 =   0.25000000000000000     
 mdl_I3u__exp__3 =   0.12500000000000000     
 mdl_Ql__exp__3 =   -1.0000000000000000     
 mdl_I3l__exp__2 =   0.25000000000000000     
 mdl_I3l__exp__3 =  -0.12500000000000000     
 mdl_I3v__exp__3 =   0.12500000000000000     
 mdl_MW__exp__3 =    520087.00820005889     
 mdl_Qu__exp__4 =   0.19753086419753083     
 mdl_Qd__exp__4 =    1.2345679012345677E-002
 mdl_I3l__exp__4 =    6.2500000000000000E-002
 mdl_I3u__exp__4 =    6.2500000000000000E-002
 mdl_I3d__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__4 =    6.2500000000000000E-002
 mdl_I3v__exp__2 =   0.25000000000000000     
 mdl_Gfbar =    1.1663900000000002E-005
 mdl_aEW =    7.5467722613403567E-003
 aEWM1 =    132.50697985450981     
 mdl_sqrt__aEW =    8.6872160450516919E-002
 mdl_ee =   0.30795379065400114     
 mdl_g1 =   0.34919223395164151     
 mdl_gw =   0.65323291048102583     
 mdl_vev =    246.21845810181634     
 mdl_vev__exp__2 =    60623.529110035888     
 mdl_lam =   0.12886910601690266     
 mdl_yt =   0.99538926629907865     
 mdl_muH =    88.388347648318430     
 mdl_I233 =               (0.99538926629907865,0.0000000000000000)
 mdl_I333 =               (0.99538926629907865,0.0000000000000000)
 mdl_AxialZUp =  -0.18517701861793787     
 mdl_AxialZDown =   0.18517701861793787     
 mdl_VectorZUp =    7.5430484227766159E-002
 mdl_VectorZDown =  -0.13030375142285200     
 mdl_AxialG0Up3 =  -0.70384650012038064     
 mdl_VectorHUp3 =             (-0.0000000000000000,-0.70384650012038064)
 mdl_VectorAUp =   0.20530252710266741     
 mdl_VectorADown =  -0.10265126355133371     
 mdl_VectorWmDxU =   0.23095271034767911     
 mdl_AxialWmDxU =  -0.23095271034767911     
 mdl_VectorWpUxD =   0.23095271034767911     
 mdl_AxialWpUxD =  -0.23095271034767911     
 mdl_VectorGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_AxialGpUx3D3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_VectorGmDx3U3 =               (0.49769463314953932,0.0000000000000000)
 mdl_AxialGmDx3U3 =              (-0.49769463314953932,0.0000000000000000)
 mdl_ee__exp__2 =    9.4835537178168353E-002
 mdl_R2VV_FIN_ =    9.6088488782489472E-003
 mdl_ee__exp__3 =    2.9204963162725400E-002
 mdl_R2SFF_FIN_ =    2.9590814358782100E-003
 mdl_ee__exp__4 =    8.9937791118717518E-003
 mdl_ZMass2_UV_EW_1EPS_ =               (-128.27702147435869,0.0000000000000000)
 mdl_cWcft_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_1EPS_ =         (-7.62714322250580471E-005,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_1EPS_ =         (-1.90678580562645118E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_1EPS_ =         (-1.71610722506380589E-004,0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_1EPS_ =         (-1.78118137247846534E-003,0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_1EPS_ =         (-5.11852221234786880E-003,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_1EPS_ =         (-1.98136572410865163E-003,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_1EPS_ =         (-1.61913273696080804E-003,0.0000000000000000)
 mdl_ZZWcft_UV_EW_1EPS_ =         (-2.92403999972050584E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_1EPS_ =         (-7.00882309395251240E-003,0.0000000000000000)
 mdl_ZAWcft_UV_EW_1EPS_ =          (4.49381150897828693E-003,0.0000000000000000)
 mdl_AAWcft_UV_EW_1EPS_ =          (7.34009289310683577E-004,0.0000000000000000)
 mdl_eCoup_UV_EW_1EPS_ =          (1.10101393396602482E-003,0.0000000000000000)
 mdl_SWCoup_UV_EW_1EPS_ =          (2.53605291302883050E-003,0.0000000000000000)
  Internal Params evaluated point by point
  ----------------------------------------
  
 mdl_sqrt__aS =   0.34351128074635334     
 mdl_G__exp__4 =    2.1987899468922913     
 mdl_G__exp__2 =    1.4828317324943823     
 mdl_G__exp__3 =    1.8056676068262196     
 mdl_MU_R__exp__2 =    1000000.0000000000     
 mdl_ZMass2_UV_EW_FIN_ =               (-374.73311512809823,0.0000000000000000)
 mdl_cWcft_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_R_FIN_ =        (-3.27178812392703853E-004,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_R_FIN_ =         (-8.17947030981759632E-005,0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_R_FIN_ =        (-7.36152327883583574E-004,-0.0000000000000000)
 mdl_cWcft_BAR_UV_EW_L_FIN_ =        (-7.98026179480882877E-003,-0.0000000000000000)
 mdl_bWcft_BAR_UV_EW_L_FIN_ =         (-2.07482441090388499E-002,0.0000000000000000)
 mdl_dWcft_BAR_UV_EW_L_FIN_ =        (-8.83898538915153451E-003,-0.0000000000000000)
 mdl_eWcft_BAR_UV_EW_L_FIN_ =        (-7.28512760666247695E-003,-0.0000000000000000)
 mdl_ZZWcft_UV_EW_FIN_ =         (-9.91987798122352313E-003,0.0000000000000000)
 mdl_AZWcft_UV_EW_FIN_ =         (-3.55339099721946744E-002,0.0000000000000000)
 mdl_ZAWcft_UV_EW_FIN_ =         (2.26533470679701650E-002,-0.0000000000000000)
 mdl_AAWcft_UV_EW_FIN_ =          (5.73994364961442297E-003,0.0000000000000000)
 mdl_eCoup_UV_EW_FIN_ =          (2.35893789765357909E-002,0.0000000000000000)
 mdl_SWCoup_UV_EW_FIN_ =          (2.20879164265601891E-002,0.0000000000000000)
  Couplings of loop_qcd_qed_sm_Gmu_forSudakov
  ---------------------------------
  
 c_UVZMass1EW =  -0.00000E+00  -0.99199E-02
 c_UVZMass2EW =  -0.00000E+00  -0.45722E+03
 c_UVAMass1EW =   0.00000E+00   0.57399E-02
 c_UVAZMass1EW =  0.00000E+00   0.64403E-02
 c_UVAZMass2EW =  0.00000E+00  -0.94184E+02
 c_UVemepMass1EW -0.00000E+00   0.72851E-02
 c_UVemepMass2EW  0.00000E+00  -0.73615E-03
 c_UVepemA1EW =   0.00000E+00  -0.35745E-02
 c_UVepemA2EW =   0.00000E+00  -0.97862E-02
  c_UVcxcA1EW =   0.00000E+00   0.84199E-03
  c_UVcxcA2EW =   0.00000E+00   0.66081E-02
  c_UVdxdA1EW =   0.00000E+00   0.17646E-02
  c_UVbxbA1EW =   0.00000E+00   0.29871E-02
  c_UVbxbA2EW =   0.00000E+00  -0.33292E-02
 c_UVepemZ1EW =   0.00000E+00   0.14505E-01
 c_UVepemZ2EW =   0.00000E+00   0.73911E-02
  c_UVcxcZ1EW =   0.00000E+00  -0.12582E-01
  c_UVcxcZ2EW =   0.00000E+00  -0.49723E-02
  c_UVdxdZ1EW =   0.00000E+00   0.10787E-01
  c_UVbxbZ1EW =   0.00000E+00   0.14544E-01
  c_UVbxbZ2EW =   0.00000E+00   0.24996E-02
         GC_1 =  -0.00000E+00  -0.10265E+00
         GC_2 =   0.00000E+00   0.20530E+00
         GC_3 =  -0.00000E+00  -0.30795E+00
         GC_5 =   0.00000E+00   0.94836E-01
         GC_6 =   0.00000E+00   0.18967E+00
        GC_30 =  -0.99539E+00  -0.00000E+00
        GC_54 =   0.00000E+00   0.33188E+00
        GC_68 =  -0.00000E+00  -0.28804E+00
        GC_70 =  -0.00000E+00  -0.57609E+00
        GC_75 =  -0.00000E+00  -0.35482E+00
        GC_76 =  -0.00000E+00  -0.27437E-01
        GC_77 =   0.00000E+00   0.82310E-01
        GC_78 =  -0.37035E+00   0.00000E+00
        GC_79 =   0.00000E+00  -0.20573E+00
        GC_80 =   0.00000E+00   0.37035E+00
        GC_81 =   0.00000E+00   0.12671E+00
        GC_82 =   0.00000E+00   0.84653E-01
        GC_83 =   0.00000E+00   0.27432E+00
        GC_84 =  -0.13239E+02   0.00000E+00
        GC_92 =  -0.24765E+02   0.00000E+00
        GC_99 =   0.00000E+00   0.67544E+02
       GC_124 =   0.00000E+00   0.46191E+00
  R2_AAboson1 =   0.00000E+00   0.60055E-03
  R2_AAboson2 =  -0.00000E+00  -0.40037E-03
  R2_AAboson3 =  -0.00000E+00  -0.77678E+01
       R2_AAU =   0.00000E+00   0.53382E-03
       R2_AAD =   0.00000E+00   0.13346E-03
      R2_AAt3 =  -0.00000E+00  -0.96194E+02
  R2_AZboson1 =   0.00000E+00   0.11235E-02
  R2_AZboson2 =  -0.00000E+00  -0.74897E-03
  R2_AZboson3 =  -0.00000E+00  -0.14531E+02
       R2_AZl =   0.00000E+00   0.26726E-04
       R2_AZU =   0.00000E+00   0.19613E-03
       R2_AZD =   0.00000E+00   0.16941E-03
      R2_AZt3 =  -0.00000E+00  -0.35343E+02
  R2_ZZboson1 =   0.00000E+00   0.21016E-02
  R2_ZZboson2 =  -0.00000E+00  -0.14011E-02
  R2_ZZboson3 =  -0.00000E+00  -0.27184E+02
       R2_ZZl =   0.00000E+00   0.14655E-03
       R2_ZZU =   0.00000E+00   0.50636E-03
       R2_ZZD =   0.00000E+00   0.64934E-03
      R2_ZZt3 =  -0.00000E+00  -0.91244E+02
       R2_ZZv =   0.00000E+00   0.28953E-03
      R2_LLCm =   0.00000E+00   0.77216E-03
     R2_LLCp0 =   0.00000E+00   0.86859E-03
    R2_QQCpcs =   0.00000E+00   0.13511E-02
    R2_bbA2Cp =   0.00000E+00   0.14310E-03
  R2_bbA2Cp_t =   0.00000E+00  -0.36668E-03
    R2_bbA2Cm =   0.00000E+00   0.17614E-04
    R2_ccA2Cp =   0.00000E+00  -0.28619E-03
  R2_ccA2Cp_s =   0.00000E+00  -0.55477E-03
    R2_ccA2Cm =   0.00000E+00  -0.14091E-03
     R2_eeACp =   0.00000E+00   0.53497E-03
     R2_eeACm =   0.00000E+00   0.47558E-03
  R2_ddZ2Cp_u =  -0.00000E+00   0.85249E-03
    R2_bbZ2Cp =   0.00000E+00   0.43978E-03
  R2_bbZ2Cp_t =  -0.00000E+00   0.11968E-02
    R2_bbZ2Cm =   0.00000E+00  -0.94158E-05
    R2_ccZ2Cp =   0.00000E+00  -0.36329E-03
  R2_ccZ2Cp_s =  -0.00000E+00  -0.70421E-03
    R2_ccZ2Cm =   0.00000E+00   0.75326E-04
     R2_eeZCp =   0.00000E+00   0.35740E-03
     R2_llZCp =  -0.00000E+00   0.55593E-03
     R2_eeZCm =   0.00000E+00  -0.25423E-03
     R2_AWWlv =   0.00000E+00  -0.27738E-03
     R2_AWWcs =   0.00000E+00  -0.83215E-03
 c_UVZMass1EW_1e -0.00000E+00  -0.29240E-02
 c_UVZMass2EW_1e -0.00000E+00  -0.15259E+03
 c_UVAMass1EW_1e  0.00000E+00   0.73401E-03
 c_UVAZMass1EW_1  0.00000E+00   0.12575E-02
 c_UVAZMass2EW_1  0.00000E+00  -0.18684E+02
 c_UVemepMass1EW  0.00000E+00   0.16191E-02
 c_UVemepMass2EW -0.00000E+00  -0.17161E-03
 c_UVepemA1EW_1e  0.00000E+00   0.50880E-03
 c_UVepemA2EW_1e  0.00000E+00  -0.76912E-03
 c_UVcxcA1EW_1ep -0.00000E+00  -0.64985E-03
 c_UVcxcA2EW_1ep  0.00000E+00   0.53232E-03
 c_UVdxdA1EW_1ep  0.00000E+00   0.76155E-03
 c_UVbxbA1EW_1ep  0.00000E+00   0.10836E-02
 c_UVbxbA2EW_1ep  0.00000E+00  -0.27203E-03
 c_UVepemZ1EW_1e  0.00000E+00   0.18898E-02
 c_UVepemZ2EW_1e -0.00000E+00  -0.28251E-04
 c_UVcxcZ1EW_1ep  0.00000E+00  -0.20209E-02
 c_UVcxcZ2EW_1ep  0.00000E+00   0.83705E-05
 c_UVdxdZ1EW_1ep  0.00000E+00   0.21818E-02
 c_UVbxbZ1EW_1ep  0.00000E+00   0.31715E-02
 c_UVbxbZ2EW_1ep -0.00000E+00  -0.10463E-05

 Collider parameters:
 --------------------

 Running at P P   machine @    100000.00000000000       GeV
 PDF set = lhapdf 
 alpha_s(Mz)= 0.1180 running at 2 loops.
 alpha_s(Mz)= 0.1180 running at 2 loops.
 Renormalization scale set on event-by-event basis
 Factorization   scale set on event-by-event basis


 Diagram information for  clustering has been set-up for nFKSprocess           1
 Diagram information for  clustering has been set-up for nFKSprocess           2
 Diagram information for  clustering has been set-up for nFKSprocess           3
 Diagram information for  clustering has been set-up for nFKSprocess           4
 Diagram information for  clustering has been set-up for nFKSprocess           5
 Diagram information for  clustering has been set-up for nFKSprocess           6
 Diagram information for  clustering has been set-up for nFKSprocess           7
 Diagram information for  clustering has been set-up for nFKSprocess           8
 Diagram information for  clustering has been set-up for nFKSprocess           9
 Diagram information for  clustering has been set-up for nFKSprocess          10
 AMP_SPLIT:            1 correspond to S.O.           0           4
 AMP_SPLIT:            2 correspond to S.O.           0           6
 getting user params
 Number of phase-space points per iteration:     1485321
 Maximum number of iterations is:           1
 Desired accuracy is:   2.6843003388403058E-003
 Using adaptive grids:           2
 Using Multi-channel integration
 Do MC over helicities for the virtuals
 Number of channels to integrate together:           4
 Running Configuration Number(s):            1           1           2           2
 initial-or-final           1           2           1           2
 Splitting channel:          20
 Weight multiplier:   5.0000000000000003E-002
 doing the all  of this channel
 Normal integration (Sfunction != 1)
 RESTART: Use old grids, but refil plots
 about to integrate            7     1485321           1
 imode is           -1
channel    1 :     1 F        0     9508  0.3350E-05  0.0000E+00  0.4234E+00
channel    2 :     1 F        0    22710  0.7934E-05  0.0000E+00  0.7099E-01
channel    3 :     2 F        0    10065  0.3329E-05  0.0000E+00  0.4705E+00
channel    4 :     2 F        0    23253  0.7918E-05  0.0000E+00  0.6557E-01
 ------- iteration           1
 Update # PS points (even_rn):      1485321  -->      1399680
Using random seed offsets:     0 ,      7 ,  63140
  with seed                   49
 Ranmar initialization seeds         124       12408
 initial-final FKS maps:
           0 :          10           1           2           3           4           5           6           7           8           9          10
           1 :           2           9          10           0           0           0           0           0           0           0           0
           2 :           8           1           2           3           4           5           6           7           8           0           0
 Total number of FKS directories is          10
 For the Born we use nFKSprocesses:
          10          10          10          10          10          10          10          10           9          10
tau_min   1     3 : 0.00000E+00      --       0.40000E+04
tau_min   2     3 : 0.00000E+00      --       0.40000E+04
tau_min   3     3 : 0.00000E+00      --       0.40000E+04
tau_min   4     3 : 0.00000E+00      --       0.40000E+04
tau_min   5     3 : 0.00000E+00      --       0.40000E+04
tau_min   6     3 : 0.00000E+00      --       0.40000E+04
tau_min   7     3 : 0.00000E+00      --       0.40000E+04
tau_min   8     3 : 0.00000E+00      --       0.40000E+04
tau_min   9     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     3 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     2 : 0.00000E+00      --       0.40000E+04
tau_min   2     2 : 0.00000E+00      --       0.40000E+04
tau_min   3     2 : 0.00000E+00      --       0.40000E+04
tau_min   4     2 : 0.00000E+00      --       0.40000E+04
tau_min   5     2 : 0.00000E+00      --       0.40000E+04
tau_min   6     2 : 0.00000E+00      --       0.40000E+04
tau_min   7     2 : 0.00000E+00      --       0.40000E+04
tau_min   8     2 : 0.00000E+00      --       0.40000E+04
tau_min   9     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     2 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     4 : 0.00000E+00      --       0.40000E+04
tau_min   2     4 : 0.00000E+00      --       0.40000E+04
tau_min   3     4 : 0.00000E+00      --       0.40000E+04
tau_min   4     4 : 0.00000E+00      --       0.40000E+04
tau_min   5     4 : 0.00000E+00      --       0.40000E+04
tau_min   6     4 : 0.00000E+00      --       0.40000E+04
tau_min   7     4 : 0.00000E+00      --       0.40000E+04
tau_min   8     4 : 0.00000E+00      --       0.40000E+04
tau_min   9     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     4 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min   1     1 : 0.00000E+00      --       0.40000E+04
tau_min   2     1 : 0.00000E+00      --       0.40000E+04
tau_min   3     1 : 0.00000E+00      --       0.40000E+04
tau_min   4     1 : 0.00000E+00      --       0.40000E+04
tau_min   5     1 : 0.00000E+00      --       0.40000E+04
tau_min   6     1 : 0.00000E+00      --       0.40000E+04
tau_min   7     1 : 0.00000E+00      --       0.40000E+04
tau_min   8     1 : 0.00000E+00      --       0.40000E+04
tau_min   9     1 : 0.40000E+04  0.40000E+04  0.40000E+04
tau_min  10     1 : 0.40000E+04  0.40000E+04  0.40000E+04
 Scale values (may change event by event):
 muR,  muR_reference:  0.412198D+04 0.412198D+04  1.00
 muF1, muF1_reference: 0.412198D+04 0.412198D+04  1.00
 muF2, muF2_reference: 0.412198D+04 0.412198D+04  1.00
 QES,  QES_reference:  0.412198D+04 0.412198D+04  1.00
  
 muR_reference [functional form]:
    User-defined dynamical scale
 muF1_reference [functional form]:
    User-defined dynamical scale
 muF2_reference [functional form]:
    User-defined dynamical scale
 QES_reference [functional form]: 
    User-defined dynamical scale
  
 alpha_s=   7.5172887264598184E-002
 BORN: keeping split order            1
 counterterm S.O           1 QCD
 BORN: not keeping split order           1
 counterterm S.O           2 QED
 BORN: keeping split order           1
 REAL 4: keeping split order            1
INFO: orders_tag_plot is computed as:         + QCD *        1         + QED *      100
#--------------------------------------------------------------------------
#                         FastJet release 3.3.4
#                 M. Cacciari, G.P. Salam and G. Soyez                  
#     A software package for jet finding and analysis at colliders      
#                           http://fastjet.fr                           
#	                                                                      
# Please cite EPJC72(2012)1896 [arXiv:1111.6097] if you use this package
# for scientific work and optionally PLB641(2006)57 [hep-ph/0512210].   
#                                                                       
# FastJet is provided without warranty under the GNU GPL v2 or higher.  
# It uses T. Chan's closest pair algorithm, S. Fortune's Voronoi code
# and 3rd party plugin jet algorithms. See COPYING file for details.
#--------------------------------------------------------------------------
 orders_tag_plot=          600  for QCD,QED, =            0 ,           6 ,
 REAL 8: keeping split order            1
 REAL 7: keeping split order            1
 REAL 3: keeping split order            1
 REAL 6: keeping split order            1
 REAL 1: keeping split order            1
 REAL 2: keeping split order            1
 REAL 5: keeping split order            1
 orders_tag_plot=          400  for QCD,QED, =            0 ,           4 ,
 EW SUDAKOV WRAPPER HEL FILTER           1          -1          -1          -1           1 T
 SDK1: keeping split order            1
 SDK2: keeping split order            1
 SDK3: keeping split order            1
 SDK4: keeping split order            1
 SDK5: keeping split order            1
 SDK6: keeping split order            1
 SDK7: keeping split order            1
 SDK8: keeping split order            1
 EW SUDAKOV WRAPPER HEL FILTER           2          -1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           3          -1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           4          -1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           5          -1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER           6          -1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER           7          -1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER           8          -1           1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER           9           1          -1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          10           1          -1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          11           1          -1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          12           1          -1           1          -1 T
 EW SUDAKOV WRAPPER HEL FILTER          13           1           1          -1           1 T
 EW SUDAKOV WRAPPER HEL FILTER          14           1           1          -1          -1 F
 EW SUDAKOV WRAPPER HEL FILTER          15           1           1           1           1 F
 EW SUDAKOV WRAPPER HEL FILTER          16           1           1           1          -1 T
 Charge-linked born are used
 Color-linked born are not used
 alpha_s value used for the virtuals is (for the first PS point):    7.2752311756796043E-002
  ========================================================================================== 
 {                                                                                          }
 {                                                                                          }
 {                                      ,,                                                  }
 {       `7MMM.     ,MMF'             `7MM  `7MMF'                                          }
 {         MMMb    dPMM                 MM    MM                                            }
 {         M YM   ,M MM   ,6"Yb.   ,M""bMM    MM         ,pW"Wq.   ,pW"Wq.`7MMpdMAo.        }
 {         M  Mb  M' MM  8)   MM ,AP    MM    MM        6W'   `Wb 6W'   `Wb MM   `Wb        }
 {         M  YM.P'  MM   ,pm9MM 8MI    MM    MM      , 8M     M8 8M     M8 MM    M8        }
 {         M  `YM'   MM  8M   MM `Mb    MM    MM     ,M YA.   ,A9 YA.   ,A9 MM   ,AP        }
 {       .JML. `'  .JMML.`Moo9^Yo.`Wbmd"MML..JMMmmmmMMM  `Ybmd9'   `Ybmd9'  MMbmmd'         }
 {                                                                          MM              }
 {                                                                        .JMML.            }
 {       v3.0.4.beta (2020-08-21), Ref: arXiv:1103.0621v2, arXiv:1405.0301                  }
 {                                                                                          }
 {                                                                                          }
  ========================================================================================== 

  +----------------------------------------------------------------+
  |                                                                |
  |  Ninja - version 1.1.0                                         |
  |                                                                |
  |  Author: Tiziano Peraro                                        |
  |                                                                |
  |  Based on:                                                     |
  |                                                                |
  |      P. Mastrolia, E. Mirabella and T. Peraro,                 |
  |      "Integrand reduction of one-loop scattering amplitudes    |
  |      through Laurent series expansion,"                        |
  |      JHEP 1206 (2012) 095  [arXiv:1203.0291 [hep-ph]].         |
  |                                                                |
  |      T. Peraro,                                                |
  |      "Ninja: Automated Integrand Reduction via Laurent         |
  |      Expansion for One-Loop Amplitudes,"                       |
  |      Comput.Phys.Commun. 185 (2014) [arXiv:1403.1229 [hep-ph]] |
  |                                                                |
  +----------------------------------------------------------------+


 ===============================================================
 INFO: MadLoop read these parameters from ../MadLoop5_resources/MadLoopParams.dat                                                                                                                                                                                                                                                                                                                                                                                                                                                                                         
 ===============================================================
  > MLReductionLib            = 6|1
  > CTModeRun                 =           -1
  > MLStabThres               =    1.0000000000000000E-003
  > NRotations_DP             =            0
  > NRotations_QP             =            0
  > CTStabThres               =    1.0000000000000000E-002
  > CTLoopLibrary             =            2
  > CTModeInit                =            1
  > CheckCycle                =            3
  > MaxAttempts               =           10
  > UseLoopFilter             =  F
  > HelicityFilterLevel       =            2
  > ImprovePSPoint            =            2
  > DoubleCheckHelicityFilter =  T
  > LoopInitStartOver         =  F
  > HelInitStartOver          =  F
  > ZeroThres                 =    1.0000000000000001E-009
  > OSThres                   =    1.0000000000000000E-008
  > WriteOutFilters           =  T
  > UseQPIntegrandForNinja    =  T
  > UseQPIntegrandForCutTools =  T
  > IREGIMODE                 =            2
  > IREGIRECY                 =  T
  > COLLIERMode               =            1
  > COLLIERRequiredAccuracy   =    1.0000000000000000E-008
  > COLLIERCanOutput          =  F
  > COLLIERComputeUVpoles     =  T
  > COLLIERComputeIRpoles     =  T
  > COLLIERGlobalCache        =           -1
  > COLLIERUseCacheForPoles   =  F
  > COLLIERUseInternalStabilityTest =  T
 ===============================================================
  
------------------------------------------------------------------------
|              You are using CutTools - Version 1.9.3                  |
|              Authors: G. Ossola, C. Papadopoulos, R. Pittau          |
|              Published in JHEP 0803:042,2008                         |
|              http://www.ugr.es/~pittau/CutTools                      |
|                                                                      |
|              Compiler with  34  significant digits detetected        |
 ---------------------------------------------------------------------- 
   
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
########################################################################
#                                                                      #
#                      You are using OneLOop-3.6                       #
#                                                                      #
# for the evaluation of 1-loop scalar 1-, 2-, 3- and 4-point functions #
#                                                                      #
# author: Andreas van Hameren            #
#   date: 18-02-2015                                                   #
#                                                                      #
# Please cite                                                          #
#    A. van Hameren,                                                   #
#      Comput.Phys.Commun. 182 (2011) 2427-2438, arXiv:1007.4716       #
#    A. van Hameren, C.G. Papadopoulos and R. Pittau,                  #
#      JHEP 0909:106,2009, arXiv:0903.4665                             #
# in publications with results obtained with the help of this program. #
#                                                                      #
########################################################################
 VIRT: keeping split order            1
 
 Sum of all split-orders
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.5073556891247912E-004           OLP:   -2.5073556891247917E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.3827695290896631E-004           OLP:    7.3827695290896631E-004
  FINITE:
           OLP:   -4.9683982733044777E-003
           BORN:   0.10437694341517066     
  MOMENTA (Exyzm): 
           1   2930.2847837812892        0.0000000000000000        0.0000000000000000        2930.2847837812892        0.0000000000000000     
           2   2930.2847837812892       -0.0000000000000000       -0.0000000000000000       -2930.2847837812892        0.0000000000000000     
           3   2930.2847837812892       -1934.0770133698979       -813.12615893558188       -2045.6639191394559        0.0000000000000000     
           4   2930.2847837812892        1934.0770133698979        813.12615893558188        2045.6639191394559        0.0000000000000000     
 
 Splitorders           2
       QCD:           0
       QED:           6
 ---- POLES CANCELLED ----
  COEFFICIENT DOUBLE POLE:
        MadFKS:   -2.5073556891247912E-004           OLP:   -2.5073556891247917E-004
  COEFFICIENT SINGLE POLE:
        MadFKS:    7.3827695290896631E-004           OLP:    7.3827695290896631E-004
 REAL 9: keeping split order            1
ABS integral  = 0.1127E-05  +/-  0.2051E-08  (   0.182 %)
Integral      = 0.4837E-06  +/-  0.2224E-08  (   0.460 %)
Virtual       = -.9732E-10  +/-  0.1111E-08  ( ******* %)
Virtual ratio = -.8825E-01  +/-  0.5816E-03  (   0.659 %)
ABS virtual   = 0.2707E-06  +/-  0.1087E-08  (   0.402 %)
Born          = 0.3107E-06  +/-  0.9934E-09  (   0.320 %)
V  2          = -.9732E-10  +/-  0.1111E-08  ( ******* %)
B  2          = 0.3107E-06  +/-  0.9934E-09  (   0.320 %)
Chi^2 per d.o.f. 0.0000E+00
accumulated results ABS integral  = 0.1127E-05  +/-  0.2051E-08  (   0.182 %)
accumulated results Integral      = 0.4837E-06  +/-  0.2224E-08  (   0.460 %)
accumulated results Virtual       = -.9732E-10  +/-  0.1111E-08  ( ******* %)
accumulated results Virtual ratio = -.8825E-01  +/-  0.5816E-03  (   0.659 %)
accumulated results ABS virtual   = 0.2707E-06  +/-  0.1087E-08  (   0.402 %)
accumulated results Born          = 0.3107E-06  +/-  0.9934E-09  (   0.320 %)
accumulated results V  2          = -.9732E-10  +/-  0.1111E-08  ( ******* %)
accumulated results B  2          = 0.3107E-06  +/-  0.9934E-09  (   0.320 %)
accumulated result Chi^2 per DoF = 0.0000E+00
  1:  0                                                       1                                           2
  2:  0  1        2     3                              4   5        6     7                               8
channel    1 :     1 T   207717     9508  0.1672E-06  0.1343E-06  0.4194E+00
channel    2 :     1 T   493506    22710  0.3958E-06  0.1064E-06  0.7111E-01
channel    3 :     2 T   206569    10065  0.1649E-06  0.1349E-06  0.4559E+00
channel    4 :     2 T   491882    23253  0.3990E-06  0.1081E-06  0.6747E-01
Thanks for using LHAPDF 6.2.3. Please make sure to cite the paper:
  Eur.Phys.J. C75 (2015) 3, 132  (http://arxiv.org/abs/1412.7420)
 -------
 Final result [ABS]:   1.1269927071721676E-006  +/-   2.0505612958200628E-009
 Final result:   4.8370337820962371E-007  +/-   2.2237521010956997E-009
 chi**2 per D.o.F.:   0.0000000000000000     
 Satistics from MadLoop:
   Total points tried:                                    188496
   Stability unknown:                                          0
   Stable PS point:                                       188496
   Unstable PS point (and rescued):                            0
   Exceptional PS point (unstable and not rescued):            0
   Double precision used:                                 188496
   Quadruple precision used:                                   0
   Initialization phase-space points:                          0
   Unknown return code (100):                                  0
   Unknown return code (10):                                   0
   Unit return code distribution (1):               
 #Unit            6  =       188496
 counters for the granny resonances
 ntot                0
 Time spent in Born :    3.52211308    
 Time spent in PS_Generation :    0.00000000    
 Time spent in Reals_evaluation:    12.3497295    
 Time spent in MCsubtraction :    0.00000000    
 Time spent in Counter_terms :    14.5187454    
 Time spent in Integrated_CT :    27.4309387    
 Time spent in Virtuals :    393.224640    
 Time spent in FxFx_cluster :    0.00000000    
 Time spent in Nbody_prefactor :    30.4048386    
 Time spent in N1body_prefactor :    1.35691524    
 Time spent in Adding_alphas_pdf :    12.8184795    
 Time spent in Reweight_scale :    59.4403114    
 Time spent in Reweight_pdf :    0.00000000    
 Time spent in Filling_plots :    31.1583366    
 Time spent in Applying_cuts :    8.78726578    
 Time spent in Sum_ident_contr :    0.00000000    
 Time spent in Pick_unwgt :    0.00000000    
 Time spent in Write_events :    0.00000000    
 Time spent in EW_sudakov :    127.911316    
 Time spent in Other_tasks :    43.6596680    
 Time spent in Total :    766.583313    
Time in seconds: 807